Computer-implemented methods and computer program products for integrating and synchronizing multimedia content, including content displayed via interactive televisions, smartphones, electronic book readers, holographic imagery projectors, and other computerized devices

ABSTRACT

Computer-implemented methods and computer program products wherein a user&#39;s reviewing of select text in a synchronized news story, article, or electronic book generates a changed presentation of associated multimedia content, including photographs, videos, and computerized graphics. User&#39;s reviewing of select text is detected automatically or managed manually, with select embodiments integrating touch-screen controls. This process of changing multimedia continues with the user&#39;s reviewing of additional select text segments. Select multimedia is modified instead of completely replaced as the user advances to an additional select text segment, leading to uniquely flowing presentations. Multimedia is visually modified through zooming, panning, resizing, highlighting, and/or other approaches. Select embodiments include similarly modified holographic imagery, advertisements, securities charts, and shifted text. In select embodiments, the user&#39;s reading speed adjusts visual modifications.

PRIORITY CLAIMS

This patent application claims the benefit of provisional patentapplication U.S. 61/400,152, filed on Jul. 24, 2010. This patentapplication further claims the benefit of provisional patent applicationU.S. 61/404,994 filed on Oct. 13, 2010.

COPYRIGHT NOTICE

A portion of the disclosure of this patent document contains materialwhich is subject to copyright protection. The copyright owner has noobjection to the facsimile reproduction by anyone of the patentdisclosure, as it appears in the Patent and Trademark Office files orrecords, but otherwise reserves all copyrights whatsoever.

FEDERALLY SPONSORED RESEARCH

Not applicable.

SEQUENCE LISTING OR PROGRAM

Not applicable.

BACKGROUND

1. Field

This application relates to the electronic presentation of news,advertising, and informational content, where the written content isintegrated and synchronized in a distinct manner with other forms ofmultimedia content.

2. Prior Art

Readers of news stories and other informational content have benefitedfrom technological advancements in the presentation of articles in printand especially in the presentation of articles via computer-implementedmethods and computer program products.

In print, and for news content in particular, the inverted pyramidstructure of journalism has remained the mainstay since the 19^(th)century. In fact, one of the first inverted pyramid stories waspurportedly an Associated Press story drafted in 1865 to report theassassination of Abraham Lincoln. Although often considered outdated,the inverted pyramid remains the principal format for stories publishedby such dominant news organizations as The Associated Press and Reuters.In simple terms, the inverted pyramid structure requires expressingfirst the key issue of a news story or other informational article,followed by supplementary information of lesser significance and lesserinterest so that inverted pyramid stories often concludeanticlimactically by describing detailed minutiae or backgroundinformation. Most often, the inverted pyramid story is published aloneor with an accompanying static photograph.

At the same time, the intermittent use of “alternative story formats” inprint journalism in recent decades has served to enhance the appeal ofnews content in newspapers and magazines by incorporating visuals thataide a user's comprehension and enjoyment of a given story. News contentbased on the “alternative story format” innovation often incorporatescharts, graphs, colorful designs, bulleted points, and other similarfeatures.

Electronically, the presentation of news and other informational contenthas changed far more dramatically and quickly. Internet aggregators suchas Google, Yahoo, and Microsoft's Bing, as well as online publisherssuch as WashingtonPost.com and The WallStreetJournal.com, are now ableto present hyperlinked titles of news stories and informational articlesthat users can click-on or otherwise select to review an entire newsstory or other piece of content in an electronic display. Someaggregators, such as Yahoo, have leads that pop-up when the user'scursor hovers over a particular story's headline, helping the user todetermine whether to skip that story or click on the hyperlink to reviewthe content in depth. Similarly, publishers and aggregators haveintegrated multimedia content into their electronic presentations ofnews and other content, whereby digital photographs, video, and audioare mixed with the written content and whereby users can click to reviewa slideshow of digitized photos related to any given piece of content,whether it's news related or a “how to” informational article.

The current leading online newspaper for interactive innovations islikely The New York Times. Their online newspaper offers severalcutting-edge, interactive news presentations and The Times has wonmultiple awards for their interactive efforts. Their interactive newspresentations, however, are heavily focused on graphics, rather than onwritten articles that incorporate multimedia in the manners described inthis patent application featuring “synchronized news stories” and“synchronized informational articles.”

Furthermore, the digital age has led to a blurring of the boundariesbetween newspapers, television, and other media. In recent decades,broadcast, cable, and satellite television had merely allowed the userto watch broadcasts with simple text overlays that serve to clarify theimages portrayed in the video presentations. More recently, however, theInternet has led to a commingling of content in new ways. Video,graphics, and text are able to be integrated so that, for example, auser can read a CNN article on the Internet, then click on a nearby,related video clip, and then click again to review an audio segment thatfurther expands that same written article.

Yet, no other news articles or informational articles have been foundthat combine written content with other forms of media in the mannerdescribed in the embodiments contained within this patent application.The closest electronic news concept uncovered in published mediapertains to displays of photographic slide shows on CNN and other newswebsites; in those examples, the reader clicks the next arrow to see anew photo and to read the accompanying captions. But the “synchronizedarticles” embodiments taught herein are not primarily about displayingsmall, isolated captions of text—most of the embodiments containedherein focus on uniquely matching visual and other media to the maintext of a given news story or similar news content.

On a different note, the U.S. Patent and Trademark Office reveals otherprior art innovations that have been created to further innovate theelectronic creation and display of content.

In U.S. Pat. No. 7,610,358 (2009), Benschoter teaches how to presentelectronic media content, primarily video content, that is retrievedfrom a database. Benschoter's method, assigned to Time-Warner Cable,seeks to separate news content into headlines, summaries, and full textor video, allowing the user to incrementally determine whether to moveforward with reviewing a particular news story or other content. It isnot intended to focus on synchronizing written content with other formsof multimedia in the manner taught herein.

A patent application by Stuckman (2007/0198655) helps users to navigatein a linear manner from one website to another website. Stuckman'sapproach differs in that it's not focused on news stories, newscommentaries, or other articles, but rather on creating a way for usersto move quickly from one web site to another.

U.S. Pat. No. 5,524,193 issued to Covington is titled “InteractiveMultimedia Annotation Method and Apparatus.” Covington allows a readerof a text story to view or bypass multimedia by manually selecting ahighlighted link. In Covington's patent, the reader has to decide toselect each text link separately in order to show the next photo, video,etc., rather than having these multimedia elements, or a majority ofthese elements, stream automatically as the user reviews a particulararticle. Covington's purpose is to allow the “annotating [of] a textdocument” by authors in a quick manner and to then give readers theability to choose or bypass accessing various presentations ofmultimedia. The multimedia selected then appears in pop-up windowsoverlaying the text. In addition, this Covington patent has extra stepsalong with other elements that make it different from the embodimentstaught herein.

A patent application by Freeman (2004/0175095) synchronizes images andaudio narratives to a written text. This audio-oriented concept is meantfor full-length books on-tape, which differs from the embodimentsdescribed herein.

A patent application by Allen (2004/0078814) intends to provide acustomized ticker for televisions. This intriguing multimediaapplication by Paul G. Allen, a founder of Microsoft, allows the user tocustomize ticker data within a television broadcast, utilizing multipledisplays to present tickers while continuing to watch a sportsbroadcast, for example.

A patent application by Jewsbury of Microsoft Corporation (2007/0006079)focuses on identifying a “state change in a structured representation ofa declarative markup language document” to trigger the playing of acomponent of an interactive multimedia presentation.

A patent application by Saiga (2004/0080541) seems to enable electronicbooks to incorporate a timed presentation of information.

A patent application by Saccocci (2009/0191531) seems confusing, butappears to want to combine a printed book or periodical with stimulationcoming from an audio-visual product (such as a stereo or a TV or acomputer). Saccocci's key approach is to have the reader hold thephysical book in hand and then present sound effects or visual effectsas the reader reads a page from that traditional book.

In U.S. Pat. No. 6,269,248, Iggulden seeks to augment a printed bookwith computerized multimedia content. The physical book contains printedvisual cues, and the reader may manually access “indicia” on a computercorresponding with those visual cues to play supplementary audio orother multimedia content.

A patent application by Cohen (2003/0059758) similarly seeks tointegrate a printed book with “associated interactive electronic data,”with the book likewise containing “indicia” to help the user accesscorresponding electronic data.

A patent application by Harshman (2006/0286528) focuses on an“interactive multimedia reading method.” As with Iggulden and Cohen,Harshman seeks to have the user read a printed book, text, or manual.Coding buried within the printed text then allows the user the option toaccess related movie or other video segments “on demand.” Harshman'spatent application's legal claims section seem to focus almost entirelyon readers of conventional, printed books; in this regard,electronically reproduced documents are mentioned once in the entireapplication, and is excluded from the claims. Most importantly, as withCovington, Harshman requires the reader to decide to select eachparticular text link to show the next video segment, rather than havingthese multimedia elements, or a majority of these elements, streamautomatically as the user reviews the book. With Harshman, the readerhas to choose each time to “actuate a code or icon and the like” toaccess each particular video “on demand” segment. In another part of hisapplication, Harshman discusses “pointing and clicking” to access eachvideo on demand. The reason for this approach is that Harshman isoffering the user of a book the opportunity to further augment theirreading of a book with video segments whenever the reader feels a need.Additionally, although Harshman claims a broad variety of printed andwritten material, his patent application does not refer to “news” or“news stories.” Next, while Harshman indicates that the printedmaterials can be “financial reports . . . charts, and graphs,” he neversuggests that the multimedia materials can be charts or photographs orgraphics; his teaching focuses solely on movies or videos. In contrast,multimedia depictions of stock charts, financial pie charts, and similargraphics are essential to the original embodiments described herein thatpertain to financial news content. In turn, the incorporation ofphotographs and graphics is a key feature of other embodiments depictedherein.

In U.S. Pat. No. 7,114,170, Harris teaches a “Method and Apparatus forProviding Interactive Media Presentation.” Harris combines presentinginteractive and non-interactive photos, videos, and other media to auser over a computer in combination with a stored “user profile.”Harris's patent claims seem unclear, but it appears that this patent isintended to prompt the user to watch a non-interactive video and to thenmake interactive selections based on the information presented in thatnon-interactive video. The user's choices are then coupled withinformation stored in their “user profile,” which then jointly leads tothe presentation of follow-up information. It should be noted thatHarris's visually-oriented media patent is not focused on news content;instead, it's mostly related to shopping. Nor is Harris's patent relatedto articles that have a text orientation; as such, Harris does notintend to change the graphics in his presentation as the user reads orscrolls down a block of text, as is taught in the “synchronized newsstories” and “synchronized informational articles” patent applicationherein. Moreover, whereas Harris's patent is completely dependent uponuser profiles, implementing user profiles is an element of only certainembodiments described herein.

Relating to scrolled content, in U.S. Pat. No. 6,067,069, Krause teachesa helpful method of scrolling text at variable speeds by attending tothe user's eye or head movements.

In turn, a patent application by Lin-Hendel (2008/0109750) teaches anautomatic scrolling method via the use of a highly-flexible electronicscrolling tool.

3. Additional Prior Art Uncovered in Academia

Additional research has been uncovered pertaining to unique newspresentations and hypermedia theories propounded by advanced academicresearchers in the U.S., Latin America, and Europe.

In the September 1997 edition of Journalism and Mass Communications,Professor Eric Fredin published a monograph entitled, “Rethinking theNews Story for the Internet: Hyperstory Prototypes and a Model of theUser.” At the time of authorship, Fredin was an associate professor inthe school of journalism at Ohio State University. In his monograph,Fredin proposed several concepts for creating non-linear news stories.Yet Fredin's focus was to have a “main story” presented sequentially,while displaying “related files” in a separate window. A different setof related files corresponds to individual portions of the displayedmain news story. Differing from the embodiments described herein,Fredin's goal was to allow a reader to see headlines of other newsstories that relate to specific portions of a given “main story,” and toalso allow each of those related stories to become the new “main story”with its own set of related headlines. Fredin's goal was to allowreaders to shift from one news story to another news story in a fluidmanner, rather than to completely transform the inner workings of a newsstory or other informational articles.

In 1999 Assistant Professor Robert Huesca of Trinity University andProfessor Brenda Dervin of Ohio State University presented an intriguingand helpful paper at the “Media in Transition Conference” at theMassachusetts Institute of Technology. The paper was entitled,“Hypertext and Journalism: Audiences Respond to Competing NewsNarratives.” The paper was based on a previous experiment in which theseresearchers had “selected existing news stories and redesigned themourselves using basic principles of hypertext.” Huesca and Dervin tooktraditional news stories from the Los Angeles Times and configured themfor presentation so that the “redesigned versions contained no newmaterial; rather, they were simply broken into thematic parts that hadto be activated by clicking on links running along the left side of thecomputer screen . . . Aside from slight changes in transitional phrases,the hypertext content was identical to the original article; only theform was altered—from a unified, linear story versus a non-sequentialnarrative with reader controlled links.” Huesca and Dervin's experimentfocused on non-linear presentations of news content. Their methoddiffered widely from the embodiments described in this patentapplication, in large part because the professors' methods do not offerstories which progress linearly through the precise synchronizing ofwritten content with other forms of media.

Similar to the research presented by Huesca and Dervin at MIT, WilsonLowrey published an interesting research paper in the Spring 2004edition of the Newspaper Research Journal. The research paper wasentitled, “More Control, but not Clarity in Non-Linear Web Stories.”Lowrey also discussed and compared a similar approach in another paper,“The Applicability of Cognitive Flexibility Theory to the Production ofHypermedia News Stories.” This latter research paper was presented byLowrey in New Orleans on May 27, 2004 at an annual conference hosted bythe International Communication Association. Lowrey is an associateprofessor of journalism in the College of Communication and InformationSciences at The University of Alabama. In “More Control, but not Clarityin Non-Linear Web Stories,” Lowrey describes the creation of anon-linear news story where “the non-linear story was segmented intofour different topics and was overlaid with a navigational scheme. Linksto each of the four topics were available in a vertical frame on theleft side of each page.” Like Huesca and Dervin, Lowrey appears topermit the user to skip from one news story portion to another portionin any sequence desired. Also like Huesca and Dervin, Lowrey's methodsdo not offer stories which progress linearly based on the “synchronizednews stories” computer-implemented methods and computer program productstaught herein.

In a 2008 edition of New Media and Society, Mark Tremayne, AssistantProfessor of Journalism at the University of Texas at Austin, publishedan article about an unusual hypertext prototype he developed. Thearticle was entitled: “Manipulating Interactivity with ThematicallyHyperlinked News Texts: a media learning experiment.” Tremayne statedhis prototype is not “a purely non-linear one” as is taught herein;instead he focused on a “hierarchical hypertext” that contained multiplelayers of portions which could only be accessed via a specific manner.Tremayne's prototype is also distinct from that described herein.

Finally, João Canavilhas of Universidade da Beira Interior in Portugalpresented a helpful research piece at the International Symposium ofOnline Journalism in 2008 at the University of Texas at Austin. Thesymposium is sponsored in part by the Knight Center for Journalism andUNESCO. Canavilhas's article is entitled “Hypertext Newswriting Effectson Satisfaction, Comprehension and Attitudes.” Canavilhas's prototypefor a non-linear news story includes the initial presentation of a newsstory title coupled with its lead. Contained within this lead are linksthe user may select to navigate to other portions of the news story.Canavilhas's method of navigation and presentation differs from theembodiments described herein. As just one example, Canavilhas embeds hishyperlinks in various places of the lead itself (to encourage non-linearreading) rather than in the main text or in another manner that lendsitself to a linear presentation of the news story. Also, and as with theother prior art examples, Canavilhas's approach doesn't allow the readerto synchronize written content with other forms of media in thestreaming method and product taught herein.

A surprisingly large volume of additional research has been undertakenon this subject, and the Association for Computerized Machinery has evenformed a special interest group dedicated to the research of “hypertext,hypermedia, and the web.” This special interest group sponsors annualconferences where university professors from across the globe publishand discuss academic research on advanced methods of presenting newscontent. Yet, despite the sizable volume of research and experimentsundertaken, the inventor has not encountered models that specify theembodiments detailed in this application's appended claims.

SUMMARY

In accordance with one embodiment described, a computer-implementedmethod and computer program product are provided for the electronicpresentation of a multimedia news story or informational article (bothcollectively termed “synchronized article”), wherein the written contentis integrated and synchronized in a distinct manner with related mediacontent, including any desired combination of photographs, videos,audios, or financial or other graphics.

As the user advances to select phrases, lines, paragraphs, or otherpredetermined segments of written text in the synchronized article therelated media content changes, allowing for new, associatedpresentations of videos, photos, or other media. Moreover, the user'sreading speed helps to control the speed of changes in the related mediacontent, putting the user in charge, creating a distinctivelyentertaining presentation, and allowing the user the option to reviewcontent at a higher rate of speed than is the case with traditional newsbroadcasts.

A current presentation of the synchronized article contains at least one“multimedia control” that serves to present additional or changed mediacontent that corresponds to a select segment of text the user seeks toreview. The multimedia control can, for example, be comprised of, orwork in conjunction with, at least one interactive button, electronicscroll-bar, or electronic touch screen control, or a combinationthereof. Alternatively, the multimedia control can be associated with anautomatic eye-tracking or body-movement tracking device (an “automatictracking component”) to cause the automatic changing of related mediacontent. If the multimedia control is expressly scrolling-oriented, itcan be more specifically termed a “scrolling-oriented multimediacontrol.” If it is scrolling-oriented while also incorporating moretraditional hyperlink controls that can similarly cause the presentationof related media content, it can be more specifically termed a “hybridscrolling-oriented multimedia control.”

By maneuvering the multimedia control in the current presentation whilereviewing the text, or by maneuvering elements associated with themultimedia control, the user causes the related media content to changein synchronization with the user's review of select phrases, lines,entire paragraphs, or other predetermined segments of written text.Additional presentations can similarly synchronize the related mediacontent with text content.

The main text can be presented either within, or adjacent to, one ormore displays of synchronized media content. The currently synchronizedtext can be highlighted or otherwise differentiated. In selectinstances, audio-visual presentations can be muted or at low volumewhile the text is read, with the user provided the option to change thesound volume. In select cases, related media content can consistently bepresented in the same place on a given display or the media can shiftdown or across an electronic page in conjunction with the user'sreviewing of associated text. More than one component of related mediacan be presented simultaneously or can appear and disappear at variousintervals as the reader reviews the corresponding text. The main newsstory can be accompanied by the presentation of one or more sidebar newsstories which appear and optionally disappear as the reader reviewsselect segments of the main article's text; in addition, the sidebararticles can have their own select segments of text synchronized withthe display of related media content. Conversely, the user's review ofselect components of related media can lead to a changing in thepresentation of the article's text. Stock charts and other financialgraphics can be modified in a highly-advantageous manner as the useradvances through the accompanying text of a financial news story. Thetext itself can shift across the page, or have its appearance changed,as the user scrolls down the page.

Related media content can be zoomed in or out, or certain parts can behighlighted, augmented, or otherwise modified as the user advances to aselect new segment of text. For instance, the reviewing of a select newsegment of text could lead to a change in perspective of a video orother visual image already displayed. This leads to an unusually fluidmanner in which to present visual and other supportive media inassociation with the text content.

Time delay devices for presenting related media content can likewise beincorporated. Article presentations can change from displaying one typeof media to another type of media. Select photographs, graphics, videos,or segments of videos can be skipped or replaced by alternative versionsto accommodate the needs of faster readers. Select media content canoptionally be bypassed unless specifically chosen by the user.

Users can be informed in advance as to when visual, audio, or othermedia changes will take place. Users can also be allowed to bypass usingthe multimedia control yet still be permitted to progress forward toreview the written text and accompanying visual or audio images.

Users can be guided in select instances to embed their own commentswithin the synchronized articles, and the articles accompanied by theembedded user comments can be shared on social platforms, includingFacebook and MySpace. Additional users can likewise add comments,including comments that critique previous comments.

Advertising content can likewise be integrated and synchronized with thearticles, with the advertising presentation able to change as the useradvances to select segments of the articles.

Moreover, advertising content can itself be designed to work in asimilar synchronized format, where the user's reviewing of synchronizedadvertising text changes the presentation of the corresponding visual,audio, or other media content presented.

Synchronized multimedia can be presented as interactive games so that,for instance, the user's reaching a predetermined point in theassociated text leads to an invitation to play an interactive gamepresented.

Synchronized articles can be presented in a traditional linear storyformat, or the content can be presented in a non-linear format. Ifpresenting the article linearly, as an alternate approach the initialpresentation can commence by showing, for example, just one text segmentof the story. Selecting the multimedia control then causes a secondpresentation containing a second text segment to be displayed within oradjacent to the first segment (or in lieu of the first segment). Inturn, the related media content can change as the user selects eachadditional presentation comprised of each additional text segment.

Multiple article summaries or whole articles can be integrated togetherinto a single, cohesive display using this “synchronized article”approach. As such, in one variation the user can scroll down the text ofone article, thereby causing its graphics to shift as describedpreviously, while the graphics for other displayed articles remainunaffected.

Pauses in reading, or pauses in maneuvering the multimedia control, canlead to additional changes in the article's presentation, to changes inadvertising, or both. The type and amount of synchronized presentationscan be matched with individual preferences by incorporating userprofiles. Text captions can be placed within synchronized articles, withthe user's review of said captions causing the continued, modifiedpresentation of related media.

The processes described in this summary can likewise be implemented tochange the synchronized presentation of multimedia in electronic books,leading to a new way for users to interact with ebooks.

Other embodiments and details are described and shown.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, in which like reference numerals representlike parts, are incorporated into and constitute a part of thespecification. The present embodiments are illustrated by way ofexample, and not limitation, in the figures. With the exception of FIG.1, the diagrams noted below are all illustrations of computerizeddisplays, also called screenshots. The illustrations of computerizeddisplays in this application depict stick figures to comply with patentoffice instructions to the inventor.

FIG. 1 illustrates an arrangement for accessing a server and databaseproviding news stories, news commentaries, informational articles, pressreleases, electronic books, or other informational content for userpresentation in accordance with the preferred and alternativeembodiments.

FIG. 2 is an example of a computerized display furnished by the serverdepicting a first preferred embodiment. In this example, a first articlethat includes a primary body of text is presented. The primary body oftext is coupled with related media content and a scroll bar operated aspart of a multimedia control. When activated by a scrolling process, themultimedia control can more specifically be labeled as a“scrolling-oriented multimedia control.” The media displayed may be anycombination of a photograph, a video, a graphic, or another form ofmedia.

FIG. 3 illustrates the results of the user's choosing of select textfrom the same first article, causing a change in the presentation of thesynchronized multimedia.

FIG. 4 illustrates additional available features, including combiningthe scrolling control taught herein with hyperlinks to create a “hybridscrolling-oriented multimedia control.” This FIG. 4 illustration alsodemonstrates in juxtaposition to FIG. 2 how a photograph, video, orother graphic can change in perspective as the user reviews additionaltext.

FIG. 5 illustrates a version of the same first article in which theprimary body of text and the associated multimedia control are placedwithin the visual media's display.

FIG. 6 illustrates a storybook design, in which a segment of textaccompanies each presentation of the changing visual media. In thisexample, the user is also shown in advance when new media content willbe presented.

FIG. 7 illustrates a presentation of the storybook design in which thescrolling-oriented multimedia control and related information areembedded in the visual media. Here, the user is likewise shown inadvance when new media content will be presented.

FIG. 8 illustrates an alternative version of the same first article; inthis example, the related media content optionally remains in the sameposition on an electronic page while the text can be scrolled up ordown. Conversely, the text optionally remains in the same position whilethe position of the related media changes.

FIG. 9 illustrates one way in which to integrate additional storyheadlines into the various embodiments detailed herein.

FIG. 10 illustrates a series of synchronized multimedia presentations.This series can be readily adapted to several of the embodimentsdescribed herein, though this series is particularly useful fordemonstrating how synchronized news and informational content can beimplemented, for example, on a smartphone or a tablet computer. Mostimportantly, this series shows how successive photographs, videos, orother graphics can be modified in a variety of ways as the user advancesfrom one select segment of text to the next.

FIG. 11 illustrates how financial charts and other financial graphicscan be synchronized with select text in a financial news story. Thissynchronizing of financial graphics can be applied to any of theembodiments detailed herein.

FIG. 12 illustrates the choosing of the third select segment of text inthe financial news story, and how that modifies the original financialgraphic presented in FIG. 11.

FIG. 13 illustrates a version of the same first article wherein theprimary body of text and the multimedia control are placed within theframe of the visual media display and in which the text is separatedinto distinct segments, each of which can be individually selected by auser to cause a new presentation of multimedia.

FIG. 14 illustrates a combining of the storybook design with“sub-headline” controls that serve as an interactive outline for thearticle. This combination enables the user to read the story linearly orin any order so desired.

FIG. 15 is a continuation of FIG. 14. FIG. 15 illustrates the results ofthe user's choosing to skip to the third sub-headline selector,revealing that button's synchronized text and related media content.

FIG. 16 illustrates an alternate way to incorporate text boxes into thesynchronized presentation of multimedia content.

FIG. 17 is a variation of the embodiment depicted in FIG. 16.

FIG. 18 depicts a series of progressive visual and audio mediapresentations that could accompany a written informational electronicdocument about how to learn yoga.

FIG. 19 illustrates how to incorporate a sidebar story into the mainstory, including allowing the sidebar story to change visual (or other)media, or even to change content in the primary body of text. FIG. 19also shows a different presentation of a scrolling process in theprimary body of text; this presentation may be used for either manual orautomatic scrolling and can be incorporated into many of the otherembodiments illustrated herein.

FIG. 20 illustrates how to present advertising in synchronization with amultimedia article.

FIG. 21 illustrates presenting synchronized advertising as a stand-aloneinnovation.

FIG. 22 depicts one way in which to incorporate financial charts intothe first preferred embodiment.

FIGS. 23 and 24 jointly illustrate how media for one article currentlybeing reviewed by the user can change while media associated withanother article within the same newspaper presentation remainsunaffected.

FIGS. 25A and 25B jointly illustrate one way in which an article's textcan be shifted in conjunction with the presentation of related graphics.

FIGS. 26 and 27 jointly illustrate a way to enable readers to accessentire news stories through electronic headline controls.

FIGS. 28 and 29 jointly illustrate a second way to allow readers toaccess entire news stories through electronic headline controls. Thesetwo diagrams also demonstrate how multimedia can change while accessingthe news stories through the electronic headline controls.

FIG. 30 is a flow chart showing, through use of a scrolling cursor, thecomputerized steps involved in synchronizing related media content withthe user's reviewing of an article's text.

FIG. 31 is a flow chart showing the computerized steps involved insynchronizing related media content with the user's reviewing of anarticle's text, leading to a continued, modified presentation of thesame visual image.

FIG. 32 is a flow chart showing, through use of an automatic trackingmultimedia control, the computerized steps involved in synchronizingrelated media content with the user's reviewing of the text for aninformational electronic document.

FIG. 33 is a flow chart showing, through use of an automatic trackingmultimedia control, the computerized steps involved in synchronizingrelated media content with the user's non-linear review of an article'stext.

FIG. 34 is a flow chart showing, through use of a table of contentsreading control (or other outline reading control), the computerizedsteps involved in synchronizing related media content with the user'sreviewing of an article's text.

FIG. 35 is a flow chart showing the computerized steps involved inshifting text across the display page as a result of the user'sreviewing of an article's selected text.

FIG. 36 is a flow chart showing the computerized steps involved indisplaying segments of an article by selecting at least one electronicheadline control corresponding to the article's headline.

FIG. 37 is a flow chart showing the computerized steps involved insynchronizing illustrative media with the user's reviewing of anarticle's text and a sidebar story's text.

FIG. 38 is a flow chart showing the computerized steps involved insynchronizing related media content with the user's reviewing of anadvertisement's text.

DETAILED DESCRIPTION Several Key Terms Defined

Computer-implemented methods and computer program products are describedfor presenting synchronized multimedia news stories and informationalarticles in an electronic format. A computer-implemented system mayalternatively be referred to herein as a computerized system or, as justmentioned, a computer program product.

The general term “news story” includes a top news story, breaking newsstory, feature story, commentary, and news release; it further includesa news story relating to politics, crises, business, finance, sports,entertainment, technology, or any other story typically considerednewsworthy.

The term “informational article” refers to informational articles on awide variety of subjects that would not normally be considered news.“How to” articles, advertorials, and Wikipedia encyclopedia entries arethree examples of informational articles.

The “news story” and “informational article” described above are furtherreferred to in this patent application as being comprised of written(text-based) content united in a unique manner with any combination ofphotographs, video, audio, computerized graphics, holographic images, orother forms of media content. This integrating and synchronizing is whattransforms the content into “synchronized news stories” and“synchronized informational articles.” The collective term used in thispatent application for both (synchronized news stories and synchronizedinformational articles) is “synchronized articles.” In turn, thecollective term used in this patent application for both “electronicinformational articles” and “electronic books” is “informationalelectronic documents.” Also related to definitions, videos, photographs,and financial charts are collectively referred to in this patentapplication as “visual images.”

The term “related media content” refers to supportive media displayedalongside text in a news story, informational article, or electronicbook, leading to the collective display of “multimedia content.” Relatedmedia content includes photographs, videos, audios, graphics, and otherforms of media that help illustrate the text. When referring to two ormore forms of related media content, they may collectively be calledmultimedia content. Similarly, when referring to text and any one ormore forms of related media content (such as text and a visual image),they may also collectively be called multimedia content.

The term “multimedia control” is defined as being comprised of at leastone electronic control that helps the user to choose, or otherwiseactivate, at least one select segment of text within a particular newsstory or informational article. Once that select segment is chosen orotherwise activated via the multimedia control, or via a component ofthe multimedia control, then new or changed visual, audio, and/or otherrelated media content is presented that relates to that select segmentof text. The multimedia control can be chosen manually through, forexample, electronic scrolling or an electronic “button” or anothercomputerized control, in which case it could be referred to as a“manually manipulated electronic control.” Or it can be activatedautomatically by the computerized system through eye-tracking or otherbody-tracking software, and can therefore be referred to as an“automatic tracking multimedia control.” In the case of an automaticcontrol, when the user reviews a news story, for instance, eye-trackingsoftware can evaluate and report back to the computer-implemented systemwhich new select segment of text the user is presently reviewing. Thatreporting back then serves to activate the multimedia control which, inturn, advances the related media content so that it is associated withthe new select segment of text presently viewed by the user.

The term “scrolling-oriented multimedia control” is defined as at leastone electronic control that specifically uses one or more scrollingprocesses to help the user to manually choose a select segment of textwithin a particular news story or informational article. Once thatselect segment is chosen or is otherwise activated via thescrolling-oriented multimedia control, or via a component of thescrolling-oriented multimedia control, then new or changed illustrativemedia content is presented that relates to that select segment of text.

In turn, the term “hybrid scrolling-oriented multimedia control” isdefined as combining the features offered by the scrolling-orientedmultimedia control described above with the ability to select hyperlinksto advance related media content in a particular synchronized article.

The term “electronic touch screen control,” or simply “touch screen,”refers to an electronic control that presents text manually through theuser's conscious manipulating of at least one finger, hand, stylus, or asimilar instrument on or very near a computerized display screen.Additional text may, for example, be “pushed up” or “pulled down” intoview on the display by the tip of the user's finger with this electronictouch control. Once selected text is presented via the electronic touchscreen control, then new or changed visual or other illustrative mediacontent is likewise presented that relates to that selected text.Although the user may activate a touch-screen control in an iPhone, forexample, by pressing on a small button on the computerized displayscreen, the specific phrase “maneuvering of said electronic touch screencontrol” in this patent application specifically refers to the user'smoving of their finger, hand, stylus, or similar instrument across apredetermined part of the display screen to cause a change inpresentation, rather than simply pressing on a single area such as abutton. This “maneuvering of said electronic touch screen control”therefore helps to “drag” text in the display screen, pushing-it-up,pulling-it-down, or dragging it sideways.

Unless otherwise defined, the term “changed component” may refer to: 1.)a component of media content that was previously displayed but thenchanged in a subsequent presentation; or 2.) a component of mediacontent that was not previously displayed but was then added anew tosaid subsequent presentation.

First Preferred Embodiment

FIG. 1 depicts a computer or other electronic device for displaying thesynchronized news stories and other informational electronic documentssuch as informational articles and electronic books.

The network 110 utilized can be the Internet or it can be an interactivesatellite, cable, or broadcast television network, a cell phone network,or other such communications network.

If the Internet is the chosen network, the server 120 can be connectedto the Internet by way of a uniform resource locator (URL).

The computerized system 100 includes a computer processor 130, a userinterface 140, and a communications interface 150. It further includes acomputer memory 160, which utilizes a browser or other display software165, and a display driver 170, which is connected to a computer displaydevice 180, also referred to in this patent application as a computeroutput device (or a computerized display). The processor 130 is acentral processing unit, a microprocessor, and/or other such processorthat is customarily utilized by a computer-implemented system.

User interface 140 serves as an interface for exchanging informationbetween the computerized system and the user and includes at least oneof the following: a mouse, cursor, keyboard, touchpad, eye movementsensors, body movement sensors, brain activity sensors, microphone,audio circuitry, or speakers. Communications interface 150 includes amodem and broadband device, a transmitter and receiver coupled toBluetooth or wireless local area networks (WLAN) or other such networksfor wireless devices, or any combination thereof. This communicationsinterface 150 allows the user to communicate with servers such as server120 through a network 110 such as the Internet or through another suchnetwork 110, including proprietary networks operated through, forexample, interactive television systems or cellular telecommunicationssystems.

Computer memory 160, also referred to in this patent application as acomputer-useable storage medium, may include non-volatile memory (e.g.,ROM), volatile memory (e.g., RAM), and hard drive and flash drivememory. In this instance, the memory may store, among other features, aweb browser 165, several examples of which are Microsoft InternetExplorer, Mozilla FireFox, and Google Chrome. Or the computer-useablestorage medium may store proprietary browser or other display software165 related to the specific computer-implemented system or itscorresponding network or both.

Computerized system 100 outputs synchronized articles and relatedcontent to display driver 170 which formats the articles for display oncomputer output device 180, which may be a computer monitor, aninteractive television screen, a computerized screen made for tabletcomputers or smartphones, including an iPad, an iPhone, an Androiddevice, or a BlackBerry device, or another computer output device.

In this specific example, server 120 has access to a database 190 of atleast one synchronized article, with each article ready to be presentedin a first presentation. This first presentation may include, forexample, a primary body of text for a written news story, coupled withthe presentation of one or more related media content components, suchas a visual image (consisting of photograph, a video, or a financialchart). Server 120 also includes, or can access, a computer processor130 that, for instance, allows the user to scroll down the primary bodyof text; this scrolling activates select segments of text which, inturn, leads to the presentation of changed related media content, as isdemonstrated in the illustrations to follow. In addition, server 120 caninclude an interface for indicating to the user which segments of textare currently being selected by the user from the database 190.

After the user of the computerized system 100 causes communicationsinterface 150 to establish a network connection through the network toserver, and via the URL if the network is the Internet, server 120 thentransmits the first display, such as the first presentation of the newsstory, to the computerized system 100 via the established connection. Ifpreferred, the first display can be presented automatically whenever,for example, the user first selects a particular application or webpage, such as a CNN “app” or home page, a CNN entertainment page, aneHow page for how-to articles, a blogger's page for commentaries, or afeatured news stories section of “MyYahoo” or “iGoogle.” Alternatively,the user can manually request the same first display.

FIG. 2 illustrates a screenshot of a current presentation displayed bythe web browser 165 or other display software 165 (depicted earlier inFIG. 1). The “current presentation” may be a first presentation in anarticle, as is depicted here, or it may be a subsequent presentation ina given article. In this current presentation example, a news storyheadline 210 is depicted, along with a primary body of text 220, ascroll bar 230, and a cursor 240 that informs the user which segment oftext is currently being reviewed. The first selected text 250 within theprimary body of text 220 is additionally differentiated through boldingin this current presentation example, giving the reader an easy way toverify the activated written passage. In turn, the related media contentpresented 260 is synchronized to the subject matter of the firstselected text 250. The related media presented 260 in FIG. 2 representsU.S. Secretary of Defense Robert Gates meeting with a Turkish general inIstanbul in advance of a NATO conference. The scroll bar 230 andembedded cursor 240 in this example operate together as components of amultimedia control, which can also be more specifically labeled as a“scrolling-oriented multimedia control.” When the user advances to thenext select segment of text by moving the cursor down the scroll bar,the multimedia control is activated, causing the display of at least onechanged component of related media content. Moreover, instead of workingbehind-the-scenes through cursors 240 affiliated with scroll bars 230,the multimedia control can alternatively be operated through electronicbuttons, interactive graphics, other types of scrolling functions, orother computerized interfacing that lead users to additionalpresentations of news or informational content. Also shown in FIG. 2 isan area allowing the user to access a series of extra features 270related to the news story, including for printing and emailing.

FIG. 3 illustrates a computerized display of the same first article,expanding it in a new presentation, wherein the user has caused thecursor 240 in the scroll bar 230 to select the fourth select segment oftext 310, which introduces President Obama's role in relation to thesubject matter of the article. The choosing of that fourth selectsegment of text 310 can be accomplished manually, through the user'smoving of the computerized cursor 240 in the scroll bar 230, whichtogether operate the respective manually manipulated electronicmultimedia control. Alternatively, and as mentioned previously,eye-tracking or body-tracking component can automatically sense that theuser is now reviewing the fourth select segment of text 310, causing theautomatic tracking multimedia control to differentiate that fourthselect segment of text 310 while simultaneously causing the presentationof new, associated multimedia 260. Or a combination of manual andautomatic controls can be implemented. Either way, the choosing of thatfourth select segment of text 310 changes the related media content 260from a depiction of Secretary of Defense Gates meeting with a Turkishgeneral in the FIG. 2 illustration of a screenshot to a video orphotographic visual image of President Obama delivering a speech aboutAfghanistan in FIG. 3. Note that stick figures are substituted for videoand photographic visual images in each illustration in order to complywith patent application rules.

The eye-tracking component can automatically track at least one verticaleye movement of the user as the user implements the computer outputdevice to view a plurality of rows of text in the primary body of text.

Once chosen in the FIG. 3 illustration of a screenshot, the fourthselect segment of text 310 is now differentiated via bold text, thoughother variations are equally feasible, including color-coding,highlighting, or other such differentiation. In turn, the first selectsegment of text 250 is no longer differentiated via bolding.

In addition, the new presentation of the first article shown in FIG. 3allows the reader to select an audio control 330 button. In this case,the audio of President Obama delivering a speech at West Point is muteduntil the user selects that audio control 330; alternatively, the speechcould be set at a low decibel level, and then increased to a higherlevel upon the user's selection of that audio control 330. While audiolevels can be kept at normal volumes in many cases, in other situationsit is advantageous to keep the audio at a low level or even to mute itso that it doesn't disturb the user's reading of the text thataccompanies the multimedia. Also, instead of the simple illustration forpatent purposes of an “on/off” audio control 330, the actual audiocontrol 330 implemented could instead be comprised of an adjustablevolume control, giving the user more control over the sound volume.

Furthermore, as is demonstrated with the above audio example in FIG. 3,additional supportive media content can be withheld from presentationunless specifically chosen to be reviewed by the user through additionalactivating of a component of the multimedia control. Moreover, one ormore supplementary media components can optionally be presented to theuser via a time-delay component; for example, in the first five secondsfollowing the user's choosing of the fourth select segment of text 310,a still photograph (instead of a video) can be displayed in the relatedmedia presentation 260. Unless the user has moved on to a differentsegment of text once five seconds passes, the still photographcorresponding to the fourth select segment of text 310 can thenautomatically convert to a video of President Obama delivering hisspeech.

Each article in this first preferred embodiment should be created in atleast a first presentation and a second presentation, with there beingflexibility in how one constructs each presentation. In addition, eachsynchronized article can continue forward with as many additionalpresentations as is needed to entertain or to complete the article in asatisfactory manner. Moreover, most articles will be comprised of morethan two presentations, with some articles being comprised of at leastfive to ten presentations. Furthermore, some new presentations may leadto little or no change in the related media content, while otherpresentations may lead to a complete altering of the related media.Likewise, each of the presentations can contain one or even multiplecomponents of multimedia.

If a given presentation does contain multiple components of multimedia(e.g., a presentation consisting of two photographs embedded in a silentvideo coupled with computerized graphic), the next presentationdisplayed could optionally result in some, but not all, of the multiplecomponents being changed.

Related media content can optionally be altered for faster or slowerreaders, or even for users who have paused reading. For example, if theuser is reviewing quickly the first three segments of text in FIG. 2,then the presentation 260 of the video in FIG. 2 can be sped-up toaccommodate the user's fast reading speed, or the video can be kept atthe same speed and then halted and replaced once the reader reaches thefourth select segment of text 310 shown in FIG. 3, where a video orphoto of President Obama replaces the previous media. In contrast, forslower readers—or for readers who have paused their reading or scrollingof an article—the video could be slowed-down, repeated, replaced by a“filler” piece of media, or even be replaced by an advertisement untilthe user finally reaches the fourth select segment of text 310.

FIG. 4 is a computerized display illustrating an alternative to theembodiment illustrated by FIG. 2. As such, FIG. 4 utilizes a “hybridscrolling-oriented multimedia control” to help change the mediaassociated with selected text. In simple terms, this means the user caneither scroll up and down the text utilizing the cursor 240 in thescroll bar 230 (as is shown in FIG. 2), or the user may instead chooseto engage the article by way of hyperlinks 420, each of which can beenabled to cause the presentation of at least one changed component ofrelated media content.

As a variation on FIG. 4, instead of using traditional underlinedhyperlinks to create the hybrid alternative outlined above, thehyperlinks in the “hybrid scrolling-oriented multimedia control” can bestructured to allow the entire first bullet point (or a first selectparagraph in a more traditionally structured news story) to beclicked-on or otherwise selected to cause the presentation of at leastone changed component of related media content. Therefore, for example,the user may place their cursor, finger, stylus, or other control deviceanywhere on the whole “bullet point” of text to cause the presenting ofrelevant synchronized visual images and to cause that bullet point oftext to be differentiated via bolding. In this case, differing fromtraditional hyperlinks, there isn't necessarily a need for underliningthe hyperlinks or highlighting key words of text.

In addition, FIG. 4 helps to demonstrate some interesting advantages ofthe embodiments contained herein. Note that the images of the twofigures depicted in the visual media presentation 260 shown in FIG. 4are the same as those depicted in the visual media presentation 260shown in FIG. 2, except that those in FIG. 4 are larger in size. Inturn, note that the cursor 240 in FIG. 4 is further down the paragraphthan the equivalent cursor shown in FIG. 2. This is to indicate that theuser has already reviewed the first two sentences in that first segmentof text and has already scrolled down the text to the third sentence.This, in turn, hasn't led to a complete changing of the related mediacontent since the subject matter remains nearly the same. It has,however, allowed the visual presentation in this example to zoom in onthe two key figures being discussed. This is a key point for the variousembodiments detailed herein. The reason is, the embodiments described inthis patent application allow for a continuous flow of changing imagesto accompany the user's reviewing of text, which is a unique feature notseen in prior art. Therefore, as the reader scrolls through theassociated text or otherwise reviews the text (manually, orautomatically via an automatic tracking component of a multimediacontrol) in some instances the related media changes completely; inother instances, however, it doesn't change at all (or only certaincomponents change completely); while, in still other instances elementsof the related media content change in a flowing manner by zooming in orout or by changing camera perspectives on the subjects.

FIG. 4 also shows one way to access a second page of the primary body oftext by clicking on a “page two” hyperlink 430 or by scrolling to thatsame area on the display via the cursor 240.

FIG. 5 shows a variation of the first preferred embodiment in which theprimary body of text 220 is embedded within the presentation of visualmedia 260. FIG. 5's screenshot integrates the text with the photos,videos, or any other media presented in a highly immersive manner. Itmay work especially well with shorter articles, although longer articlescan likewise be incorporated into the framework by, for instance,including a “next page” control.

Second Preferred Embodiment

FIG. 6 illustrates a computerized display for a second preferredembodiment for these synchronized articles, wherein one or more segmentsof text (within the primary body of text) are part of each presentationof changing multimedia in a “storybook format.”

This second preferred embodiment, along with each of the alternativeembodiments that follow, can utilize the same computerized processesthat were detailed in the first preferred embodiment.

As the user maneuvers the cursor 240 in the scroll bar 230 manually orautomatically in FIG. 6, instead of presenting a large primary body oftext 220 adjacent to the cursor as is shown in FIG. 2, each segment ofstorybook text 610 in this second preferred embodiment is presentedseparately within or adjacent to the multimedia display, while thescroll bar 230 and cursor 240 point to the equivalent of a table ofcontents 620 that outlines the subject matter contained in each upcomingpresentation. This computer-implemented method and computer programproduct not only gives the reader advanced notice of the nature of eachtopic to be discussed in a particular article, it also illustrates oneway in which the user can be informed in advance as to when variousmultimedia components will be displayed, along with the nature of thosesame multimedia components. For example, the user scrolls down to “map”630, which immediately follows a brief written discussion onAfghanistan. As a result, a map of Afghanistan is presented alongsidethe matching storybook text. In turn, when the user scrolls further downthe page to “Who Will Attend,” the corresponding storybook text appears;once the user scrolls slightly further, then an associated “photo” 640of the respective NATO participants is presented alongside thecorresponding storybook text. Each new element of illustrative media maybe presented simultaneous to the presentation of each new segment ofstorybook text, or the illustrative media can be presented in-betweenthe presentation of text, or both.

In turn, the FIG. 7 screenshot takes the second preferred embodimentdepicted in FIG. 6 and simply places the scroll bar 230, the cursor 240,and the related “table of contents” 620 or equivalent within the displayof the main visual media presentation.

It should be noted that the first preferred embodiment can likewiseprovide the user with advanced notice of upcoming media presentations.In fact, if that information is not provided within the primary body oftext 220 then, for example, the cursor 240 or another element in thescroll bar 230 can be formatted to include that information.

Additional Embodiments, Along with More Details to Further Delineate theVarious Embodiments

FIG. 8 illustrates a computerized display for an alternative embodimentincorporating the same article. In this example, the related mediacontent display 260 can remain in the same location on the displaydevice while the text moves up and down the page via scrolling or viaother types of multimedia controls. In addition, in this example therelated media content display 260 is shown in a smaller size. This couldbe advantageous to publishers or aggregators who have a lot of text topresent for a particular article and who therefore may wish to decreasethe space provided for presenting related media. Note that thealternative cursor control 820 displayed in FIG. 8 specifies the segmentof text associated with the related media currently presented, as doesthe text bolding in the illustration. Also, the example shown in FIG. 8can be modified so that the text remains in the same position while theposition of the illustrative media changes.

Yet another variation on FIG. 8 is to display a visual mediapresentation 260 that is surrounded by text on most sides, or even onall sides. This is similar to how photographs are often presented inprint newspaper stories. Only, in this computerized variation, andsimilar to the various embodiments detailed herein, the visual mediapresentation 260 surrounded by text on all sides changes as the userreviews the related text. As with the prior examples, this can beaccomplished manually through the various computer-implemented methodsand computer program products described in this patent application, orit can be accomplished automatically via eye-tracking or otherbody-tracking components. As well, in this combined presentation ofmultiple articles, scrolling down one article can change graphicsassociated with the chosen article while unaffecting graphics associatedwith unrelated articles; in this instance, using an electronic touchscreen control (among other choices) would allow the user to affect thetext and graphics for one article while unrelated text and graphicsremain static on the electronic display page. FIGS. 23 and 24 jointlydemonstrate how related media content changes for an article currentlybeing read about President Obama (causing the Obama video to zoom-in),while related media content for a second article presented in the sameelectronic newspaper remains unaffected. Note the changed position ofthe Obama article's cursor 240 in FIG. 24, which helped to cause thechange in the presentation of the related media content.

Moreover, multiple articles on the same electronic page can even utilizethe same related media content display 260 for presenting theircorresponding media, leading to a unified “electronic newspaper”presentation containing several or even numerous articles.

FIG. 9 illustrates one way in which publishers and aggregators canintegrate additional article titles or news headlines into the frameworkfor the various embodiments described. While this integration isdepicted in the alternative embodiment style that matches FIG. 8,additional article titles and headlines can likewise be integrated inthe other preferred and alternative embodiment styles detailed herein.

In the example shown in FIG. 9, note that the various articles arelisted in an article headline display 910, and that the article headlinefor “Gates in Istanbul for Afghan Talks” 920 is currently differentiatedthrough bolding. In turn, if the reader were finishing reviewing thisarticle and desired instead to review the article entitled “ElectronicBook Sales Soar 150%” 930, then selecting that title would cause thetext for that article to appear along with related media content thatcorresponds to a first presentation of that same article. Thecorresponding visual or audio media can subsequently change when theuser selects the next select segment of text within the “Electronic BookSales” article 930, in the same manner as the previously describedexamples.

The FIG. 10 illustrations of six screenshots help to provide a visualoverview of the synchronized article process. The article depicted inFIG. 10 has been abbreviated to conserve space in this patentapplication, yet longer articles can easily follow the same process.FIG. 10 shows how multimedia components can change in a pleasing andcoherent manner in association with the presentation of related text fora single article. This particular overview also shows how theembodiments detailed herein can work especially well with smartphonesand tablet computers. The first display 1010 in FIG. 10 represents avideo of Defense Secretary Gates walking toward a Turkish General. Thesecond display 1020 brought on by a changing of presented text shows thesame video, but with Gates now shaking hands with the Turkish General.The third display 1030 switches to a completely new presentation, aphotograph of President Obama. The fourth display 1040, likewise broughton by a changing of text, zooms in on that same photograph of Obama. Thefifth display 1050 then switches to a photo of U.S. Marines on patrol inAfghanistan, while the sixth and final display 1060 shows a video ofGates waving goodbye, symbolizing his upcoming departure from Turkey inorder to travel to Europe.

Note that the text scrolling functions detailed above can beincorporated into current smartphone and tablet computer “touch screen”technology. As a result, the text can be “pushed up” or “pulled down” or“dragged from the side” in the display page by the user's finger or astylus (via the previously defined “maneuvering of said electronic touchscreen control”), thereby causing the presentation of the changedcomponents of related media content. Or the user can make use ofoptional “more” hyperlinks 1070 to cause the text to change completely.Alternatively, the presenting of text can be accomplished in one of theother manners described in this patent application. Relating to thispresentation, a text cursor 240 is depicted in the third display 1030 inFIG. 10 to help show the user which line of text matches the currentrelated media content presentation.

In addition, the visual media displayed in FIG. 10, as well as the mediacontent displayed in the other preferred and alternative embodiments canchange in a slow, flowing manner, or it can change in a more abrupt way,or both. For instance, in FIG. 10 the transition from the first display1010 to the second display 1020 can be controlled in a slow, flowingmanner no matter how fast the user scrolls down from the beginning ofthe first segment of text in the first display 1010 to the end of thesecond segment of text in the second display 1020; conversely, thedisplay can be designed to match the speed of the video with thescrolling speed implemented by the user. So, if the user scrolls (orreads) quickly, then the video images can accelerate to match. Or, inthat same situation, the video can instead be designed to skip to a nextpredetermined scene. Or the video can be converted to a still photographor other presentation until the user scrolls to the third display 1030.The publisher or aggregator has the benefit of being able to choose frommany presentation options using visual images and other media whilestill adhering to the core of the unique embodiments detailed herein.

The FIG. 11 illustration of a screenshot shows how the preferred andalternative embodiments described previously can be used in a beneficialmanner to present financial news stories and financial informationalarticles. The financial news story in the FIG. 11 example begins with afirst presentation of multimedia 260 corresponding to a first selectsegment of text 250. That first presentation of multimedia 260 is astock market chart of the Dow Jones Industrial Average as of Mar. 22,2010. That first select segment of text 250, in turn, discusses how theDow Jones has hit a new high for 2010.

As the user reviews additional segments of text, the stock market chartis able to likewise change to better match the text currently beingreviewed. And so we come to the FIG. 12 computerized display, where thesame article continues by discussing how one analyst argues in the thirdfinancial segment of text 1210 that a breaching of the current uptrendline will cause the Dow Jones Industrial Average to plummet, challengingthe 6,469 level last seen in March 2009. In turn, the accompanyingfinancial graphic within FIG. 12's multimedia presentation 260 depicts achart similar to FIG. 11, but now with a trendline 1230 drawn to matchthe analyst's discussion, along with a dotted line 1240 representing ahypothetical future path for the Dow Jones Industrial Average. As withthe prior photographic, video, and audio examples, thedynamically-changing financial chart depicted in this article shows thepossibilities for a vibrant way to present news and informationalcontent. Moreover, these dynamically-changing financial charts can bepresented in any of the preferred or alternative embodiments detailedherein, and not just in the embodiment depicted in the FIGS. 11 and 12examples.

The financial charts depicted in FIG. 11 and FIG. 12 include price datadisplays, the price data displays including a record of past price data,and with the continued, modified display of the financial chart in FIG.12 further configured to visually present at least one future priceprediction associated with the price data display.

FIG. 12 also depicts a conventional way to continue onto a nextpresentation of the primary body of text. In this case, it showstraditional page numbers 1250 that the user can select to advance fromthe current page one to a later page. Selecting these other pagessimilarly leads the user through a synchronized presentation ofmultimedia content.

Skipping forward for a moment, FIG. 22 shows one way in which the firstpreferred embodiment can be utilized to present financial news articlescontaining financial charts and other financial graphics. Thisparticular illustration is a substitute way of displaying almost thesame information as is depicted in FIG. 12, except that this examplealso incorporates into this multimedia presentation 260 a depiction of aphotograph 2220 and related text 2230. This illustration helps to showthe myriad possibilities for mixing and matching media in financialpresentations as well as other presentations.

FIG. 13 is a variation on the first preferred embodiment, with thearticle further abbreviated for patent purposes. In this illustration ofa screenshot, the primary body of text is divided into detachedsegments, with each segment able to be activated through the multimediacontrol. For example, clicking a cursor on the first detached segment1310, or a later segment, causes a presentation of a visual image thatis associated with the chosen segment. Optionally, the presentation ofselect types of media, such as video, can be timed to match how long itwould take for that user, or a typical user, to read the correspondingchosen segment of text. Note that the outline for the first detachedsegment 1310 is currently bolded to let the user know that the visualmedia shown (along with any other audio, tactile, or other mediapresented) matches that particular segment.

FIG. 14 illustrates another alternative embodiment incorporating thepreviously-discussed “storybook format.” Only this embodiment combinesthe storybook format with interactive sub-headline controls 1420/1430 (acomponent of multimedia controls) that enable the user to quickly reviewsections of the article in a non-linear manner. In FIG. 14, the summary1420 is the current section displayed for the given article. Thesummary's control 1420 is bolded in this illustration to let the userknow this is the current section being reviewed. While the user canlikewise achieve the same goal of quickly reviewing sections in anon-linear manner by scrolling to desired sections via the secondpreferred embodiment (as was depicted in FIGS. 6 and 7), the formatdepicted in FIG. 14 allows for an alternative means of skipping from onesubject matter to another subject matter within the particular article.In turn, the multimedia presentations 260 accompanying each sectionwithin this article in FIG. 14 can still be presented in a linear mannerwithin the overall non-linear presentation.

FIG. 14 depicts one other feature that can also be applied to the otherembodiments outlined herein. A “Back to Headlines” control 1440 can leadthe user back to a list of other news story headlines (or informationalarticle titles), assuming those headlines aren't presented on the samedisplay as the article currently being read by the user.

As a follow-up to FIG. 14, FIG. 15's illustration of a screenshot showsthe user's having chosen the third segment's sub-headline control 1430within the same news story, about President Obama's Afghan strategy.This causes a new multimedia presentation 260 to be displayed thatincludes a video of Obama delivering a speech, coupled with a relatedsegment of text 610 presented in the same storybook format.

FIG. 16 shows how a different version of the “storybook format” can beintegrated into the synchronized article computer-implemented methodsand computer program products previously described. If desired, FIG. 16can begin with an initial presentation in which only a sole segment oftext 1620 is displayed, along with the accompanying related mediacontent display 260. Within that initial presentation, a control arrow1625 or other such control can be presented that allows the user toselect the display of a previously hidden second segment of text 1630.Accompanying the presentation of the previously hidden second segment oftext 1630 is a changed presentation of related media content. Moreover,within that second presentation, a control arrow 1625 or other suchcontrol can likewise be presented that allows the user to select apreviously hidden third segment of text 1640 and its associated relatedmedia content display, with this process able to continue until the userhas finished reviewing the particular article. FIG. 16 shows fivedifferent segments of text able to be displayed to complete the article.In turn, if desired, prior segments displayed can be hidden uponpresentation of any current chosen segment of text. In addition, in lieuof having the control arrows 1625 contained within each segment of text,the control arrows 1625 or other such controls can instead be presentedelsewhere in the display. As another approach, all five segments (1620,1630, 1640, 1650, and 1660) can be displayed upon initial presentationof the article, with the user's “activation” of any segment causing thepresentation of illustrative media associated with that particularsegment; in this latter example, a “start here” indicator 1670 or theequivalent can guide the user to the first of the five segmentspresented.

FIG. 17 is a variation of the embodiment shown in FIG. 16. In thisdepiction, the same article is broken into three bulleted segments(1710, 1720, and 1730), while the control arrows 1625 remain the same.

The FIG. 18 illustrations of screenshots demonstrate one way in whichthe various embodiments detailed in this patent application can beapplied to informational articles, including “how to” articles and otherinstructional presentations. In the six illustrative panels displayed inFIG. 18, a yoga teacher is represented. The teacher is showing users howto perform various physical poses. The first informational articledisplay 1810 includes an initial representation of a photograph of theteacher; text accompanying that photograph introduces the subject ofyoga to the reader. The second informational display 1820 includes arepresentation of a video of the teacher showing her body twisting intoa first yoga pose, while the accompanying text further explains how tohold the pose. The third informational display 1830 shows a photographicrepresentation of the teacher taking a break while using the text toexpound upon yogic breathing techniques. The fourth informationaldisplay 1840 shows a photo representation of the teacher in a secondpose, while the fifth informational display 1850 shows the same photo,but with a close-up of the teacher in that same second pose. The sixthand final informational display 1860 shows a silent video representationof the teacher as she discusses in the text how yogic breathing leads toa relaxed state even as a practitioner simultaneously contorts her bodyinto a challenging yogic posture. Each of the depictions in theaforementioned displays can be comprised of any combination ofphotographs, videos, graphics, audio, text, or other media. As with FIG.10, in FIG. 18 the presentation of a visual image such as a photographor video can change, for example, as the user reviews the text line byline—or even word by word, or letter by letter—allowing the relatedmedia content to match the corresponding written article; as in FIG. 10,the cursor 240 depicted in the second informational display 1820 of FIG.18 helps to confirm for the user the line of text that matches thecurrent supportive media presentation, though other indicators caninstead be used. Also similar to FIG. 10, the visual media displayed inFIG. 18 can change in a slow, flowing manner, or it can change in a moreabrupt way, or both. Note that the text presented in the sixillustrative panels in FIG. 18 is highly abbreviated due to spacelimitations in this patent application. However, the point of FIG. 18 isto show that, as with the news story, an informational electronicdocument (such as an article or an ebook) can be adapted to work withthe various preferred and alternative embodiments explained in thispatent application.

The FIG. 19 illustration of a computerized display shows how tointegrate a sidebar article 1920 into an overall news presentation thatincludes a primary body of text 220. Moreover, the sidebar article 1920can be configured to itself contain select segments of text that, whenchosen by the user, lead to the presentation of additional related mediacontent. That additional media can augment or even replace the mediapresented by the user's selection of a select segment of text in theprimary body of text 220. Or select segments of text within the sidebararticle 1920 can even cause the content in the primary body of text 220to be changed. In the example depicted, after the user selected thesecond segment of text 1930 in the primary body of text 220, thepreviously hidden sidebar story 1920 was presented. The user thenproceeded to select the first segment of text 1940 in the sidebar story1920, which then caused that first segment of text 1940 to bedifferentiated by bolding; it also caused a new presentation of a map ofAfghanistan 1950 to be displayed. This new presentation of the map 1950occurred within a multimedia presentation that was already displayed asa result of the user's earlier selection of the second segment of text1930 within the primary body of text 220.

FIG. 19 also shows an alternative to the scroll bar 230 and cursor 240controls that have been described earlier. In this particularillustration, the scrolling control 1960 is placed within the primarybody of text 220, and the user simply moves the scrolling control 1960up or down over the text to cause the presentation of the multimediacorresponding to each select segment of text. In the FIG. 19 screenshot,the scrolling bar 1960 is currently hovering over the second segment oftext 1630 labeled “Afghanistan is the main topic.” This scrollingalternative, or another such scrolling alternative, can be utilized inconjunction with the various preferred and alternative embodimentsdescribed in this patent application.

Also related to FIG. 19, multiple sidebar articles can be presentedwithin a particular news story, with the choosing of select text in onesidebar able to change the content in select other sidebars presented.

Advertising can likewise be integrated into the various preferred andalternative embodiments in a helpful and unique manner. FIG. 20 showsthe third display 1030 and the fourth display 1040 from the articlepreviously depicted in FIG. 10. Only, in these two illustrations ofscreenshots, two panels of advertising (2010 and 2020) are presented,respectively, alongside the third and fourth displays (1030 and 1040).Therefore, while the text of the news story focuses on war strategies byPresident Obama in the third display 1030, the accompanyingadvertisement 2010, in a reference to the content of the adjacentdisplay, asks the reader if they “Want to Get Away From the Hubbub?” Asthe user scrolls to the next display of text, not only does the visualmedia in the fourth display 1040 zoom-in on the photograph of PresidentObama, but the panel of advertising 2020 likewise changes to provide newinformation on specific airplane flights that can assist the reader toget away from the “hubbub.”

Similarly, if a reader is reviewing text for a hypothetical articleabout treating skin problems, and the reader comes to a specific sectionof text focusing on dry skin, the associated advertisement for a line ofskin treatments can likewise change to focus on dry skin (instead of onoily skin or normal skin). The changed advertisement could even, forinstance, be a presentation of a coupon for a dry skin product.Alternatively, the publisher might have excluded advertisementsaltogether in the prior presentation, and only displayed a firstadvertisement about treating dry skin after the user chose the relatedsegment of text.

Advertising can be presented in a synchronized manner in other ways aswell. For example, advertising can be included inside the visual oraudio media presentations of articles shown in the previousillustrations, with changed presentations of advertising presented insynchronization with the user's selection of a next select segment oftext in a given news story or informational article.

As well, electronic advertisements can be presented independently ofarticles, utilizing this same synchronized article format. FIG. 21depicts two screenshots of an advertisement for a bakery. The first textdisplay 2110 lists the desserts available for purchase, while the firstdisplay's related media content 2120 shows a photo (or, alternatively, avideo or other graphic) of a display table exhibiting the variety ofdesserts sold by that same bakery. Once the user scrolls or otherwiseselects the next select segment of advertising text 2150 (focusing onhomemade apple pies), as is shown in the second text display 2130, thenthe second display's changed related media content 2140 zooms in on thatapple pie that was shown at a distance in the prior visual presentation.The user's selection of additional select segments of text can lead toadditional changes in the presentation of associated media.

Synchronized advertisements such as that depicted in FIG. 21 can bedesigned using any of the preferred or alternative embodiments describedin this patent application. Or those advertisements can also be designedas advertorials, allowing lengthier presentations of text to accompanythe advertising.

Addressing another issue, in some cases these synchronized articles canincorporate a specialized computer memory (or “user profile”) thatremembers the user's record in reviewing previous presentations ofsynchronized articles. For instance, a user profile can remember whethera particular user enjoyed audio-visual presentations as they reviewedthe associated text for news stories, or whether they instead choose tohave the audio muted. As well, the user profile can record if the userpreferred to see still photographs to accompany the related text orwhether they preferred videos. The specialized memory can then lead to acomputerized altering of the presentation of the article currently beingreviewed to better match that particular user's past preferences. Inaddition, if so desired, the user can be asked their preferencesdirectly, and those preferences are subsequently stored in the memory;future presentations of synchronized articles can then match thosedirectly-stated preferences.

This computer-implemented method and computer program product relatingto synchronized articles could additionally incorporate a variety ofelectronic games into the multimedia presentations of articles,including: anagrams, puzzles, clues, Mad Libs, Hangman, Tic-tac-toe,video game poker, Pac-Man®, Asteroids®, electronic pinball, etc. As aresult, when the user scrolls or otherwise selects any particular nextsegment of text, an electronic game can be presented as part of thesynchronized presentation. The user can play the respective game orsimply move on to the next select segment of text. Moreover, success atselect games can lead to the awarding of prizes, or to the display ofbonus presentations, or both.

As well, select additional media components can be incorporated as“surprise graphics” that are able to be presented at any time duringwhich the user is reviewing the news story or informational electronicdocument. This can help to create additional surprise and excitement forthe user.

Next, users can be allowed to comment on select synchronized newsstories and informational electronic documents. This can be done in atraditional manner, where the user comments in an area designatedoutside the space of the electronic news story or informational article.Alternatively, select comments can be permitted to be displayed withinthe actual presentation of the synchronized news story or informationalarticle, such as within the primary body of text 220 or within therelated media content presentation 260. This can especially be useful ifusers are permitted to share synchronized news stories or informationalarticles on social platforms such as Facebook or MySpace. As such, if afirst user flags, posts, or otherwise shares a synchronized news storyembedded with their comments, then friends can see the first user'sembedded comments and, if so desired, embed their own comments into thenews story.

The embodiments described in this patent application can be utilized toenhance the presentation of several types of informational electronicdocuments, including electronic books. This includes fiction,educational textbooks, self-help books, and other informational andeducational content. As an example, a user reading an e-book biographyabout Abraham Lincoln might see displayed, adjacent to an associatedsegment of text, an image of the president as a child. Then, as the userreads the next select segment of text, the image of young Abe Lincolncan slowly move across the page of text or zoom-in, or otherwise bemodified. In other instances, as the user reads additional text thephotograph might change completely; this flexibility in approach isreflected in the news story examples previously described. In fact, theFIG. 10 computerized displays, along with others, can apply specificallyto e-book presentations.

Further exploring the e-book concept, a person reading a differentchapter of the same hypothetical e-book on President Lincoln might see arecently-shot color video of the outside of Lincoln's log cabin as theyread related text about his childhood. The angle and location of thevideo can then be modified so that, as the user encounters additionaltext discussing how young Abe spent his nights sleeping in the crampedquarters, the camera taking the video gradually “walks” the reader intothe cabin; as a result, the user sees in the associated video exactlywhat the text is discussing, synchronizing the visual media with thetext in a unique manner. As well, when the user comes to a section oftext that refers to a different home Lincoln had lived-in, the video canchange completely to a new graphic.

Using another example, in a self-help e-book or a digital work offiction, the multimedia presentation 260 can be used to guide the readeron a visual journey. As the user scrolls down descriptive text,associated visual media can change both abruptly and in a slow, flowingmanner to simulate the reader's walking down steps or opening a seriesof doors or encountering other characters on the visual journey insynchronization with the user's review of related text.

As was explained in depth previously in this patent application, theuser may scroll manually through a manually manipulated electronicdevice as he or she reads the e-book or other informational electronicdocument, or automatic eye or other body-tracking software can beimplemented to detect the reader's place in the given story to activatean associated automatic tracking multimedia control.

Another helpful feature supporting the previously-described embodimentsincludes incorporating text into the multimedia presentation 260 so thatthe text can be visually altered both abruptly and in a slow, flowingmanner as the user reviews the text, the multimedia content, or both.This will allow, for instance, written text to shift to make way foremerging or changing graphics. For a sports story created in theembodiments previously described, the initial presentation could includea headline, two columns of text, and a still graphic of a professionalfootball team's logo that is placed in the middle of the two columns oftext. Then, as the user begins to read the story, scrolling manually orallowing automatic eye or other body-tracking software to detect thereader's place in a given story, a video could be shown of a footballplayer crashing through both the team's logo and the article's text,with the article's text actually moving to make way for the graphicalpresentation of the moving football player. Because the text isintegrated directly into the graphical presentation, it can easilyinteract with the accompanying graphics in a variety of unique andadvantageous ways.

Further illustrating how text can be moved in conjunction with thepresentation of related graphics, FIGS. 25A and 25B jointly depict theRobert Gates news story previously represented in FIGS. 2-10 and otherdiagrams; however, in this example, a video of Robert Gates walkingtoward his Turkish counterpart causes the text to be shifted in aflowing manner. Although these two diagrams (FIGS. 25A and 25B) show a“before” and “after,” it can be extrapolated how the text can be shiftedgradually (or, conversely, instantly) so as to minimize disrupting theuser's reviewing of the text.

Note that the graphics in the various embodiments can be presented oncebased on scrolling, based on time, or a combination thereof; or they canloop so the graphic activity repeats.

Text articles, alone or in conjunction with related media content, canbe modified in another associated manner to benefit readers. Thisexample is based in part on prior art depicted in “Yahoo!” news pages,whereby hovering over a Yahoo! news headline permits a pop-up displaythat reveals a brief introduction to the news story. In this inventor'sembodiment, additional useful and innovative functionality is providedwhile the user hovers over, or otherwise selects, the headline or itsassociated headline electronic control for a given news story or otherinformational content. This additional functioning allows the user to,for example, hover over select individual words within the headline,which then allows the pop-up display showing the lede to change torepresent subsequent portions of the news story including, if desired,related media content components that change in the manner previouslydescribed in this patent application.

FIGS. 26 and 27 show how this embodiment might work with a news storyabout U.S. Secretary of Defense Robert Gates. In FIG. 26, a list of fournews story headlines 2610 is depicted, and the user is shown to havealready selected the headline “Gates in Istanbul for Afghan Talks,”causing the pop-up box containing the lede 2620 for the headline to beshown. This function is similar to Yahoo's prior art. In FIG. 27,however, the user is shown to have now additionally selected the secondword 2730 in the headline by, for example, hovering a cursor over thatsecond word 2730. Differing significantly from Yahoo's prior art, thishas caused the next portion 2720 of the news story to be shown insteadof the lede portion.

Optionally, the publisher or user could elect to allow an initialhovering over (or otherwise selecting) of any portion of the headline tocause only the introduction to appear. Then, once a predetermined periodof time passes, or the user takes a specific action, all or selectindividual words can be activated to represent different portions of thenews story or other informational article.

Alternatively, instead of causing pop-up portions to change when theuser hovers over each select individual word, the pop-ups could changewhen the user hovers over selected letters or groups of words. Or theuser could instead hover over other content, such as symbols or otherindicators adjacent to the headline; the user's selection of at leastone such symbol near the headline, for example, could then cause thepresentation of the pop-up box with the desired news story content.

Moreover, the user could also be provided with sub-headlines thatappear, for example, in the same pop-box as the news lede or in one ormore additional pop-up boxes—or even on the same display as theheadline. The advantage to this unique approach is striking: when theuser selects, for example, a particular word in the headline, not onlydoes a pop-up box appear with a chosen portion of the news story, butthe corresponding sub-headline can also be highlighted or otherwisedifferentiated from the unselected sub-headlines displayed. This allowsthe user to visually see, choose, and confirm the selection ofsub-headline topics of interest while ignoring others. In this manner,the user is then allowed to review the article either linearly ornon-linearly, providing additional flexibility and usability.

One reason publishers have not explored this approach may relate to thepossible fear users would not see advertisements on a new electronicpage that would be watched had the reader instead traditionallyclicked-on a headline. However, this inventor proposes advertising canbe presented within the one or more pop-up boxes presenting the newsstory, and even in the optional list of sub-headlines. For instance, ifthe user hovers over the second word in a given news headline, and thatcauses the second portion of that news story to appear in a pop-up box,that pop-up box (or a supplementary pop-up box) could show a newadvertisement, such as for an automobile. If the user then selects thethird word in that same headline, that same pop-up box could then changeto show different information about the advertised automobile, or thepop-up box could instead present an entirely new set of advertisements.Although changing ads can be presented in separate pop-up boxes, it maybe preferable to include the ads within the pop-up boxes that presentthe news or other desired informational content, so that users do notfind the pop-ups bothersome. Alternatively, the changing ads could bepresented on the main page containing the headlines.

This extended use of pop-up boxes to show additional portions of anarticle coupled with advertising creates a win-win situation, in thatusers obtain far easier access to articles than is currently permittedin the prior art—and without having to change an entire web page or app,for example. In turn, the news publisher or aggregator is allowed topresent advertising in an advantageous manner that is also comparativelyagreeable to the user.

For further functionality, the user could be allowed to alter the sizeof the one or more pop-up boxes presented. Similarly, the publishermight decide to give the user a choice as to whether the pop-up boxesshould exclude or include related media content (such as photos orvideos), and/or whether the article's sub-headlines should be presentedor hidden from display.

As mentioned above, associated visual media can be displayed in acomparatively flowing manner as the user scrolls across the presentedelectronic headline control of the news story or other content. In thiscase, the “scroll” control is the actual headline itself or a controlnear the headline, and so scrolling across the headline (or, forexample, implementing an electronic control just to the side of theheadline) could cause a flowing change in the presentation of video orother pictorial content (including advertising) to accompany the changein text-based content. Alternatively, the full article's own text canalso be scrolled in a gradual, flowing manner in the pop-up box whilethe user also “scrolls” the headline or related control; this allows thereader to gradually and effortlessly review all or part of the text ofthe article in a single pop-up box.

FIGS. 28 and 29 illustrate a variation for how this flowing of textmight work, with a horizontal indicator 2830 used by the reader as anelectronic headline control in this example; moving this indicatorsideways causes the scrolling of the text in the pop-box (2820 becomes2910). FIGS. 28 and 29 also illustrate how graphics can be modified inthe same flowing, continuous presentation as was detailed in thepreferred embodiments.

In lieu of using pop-up boxes, the headlines could cause the newsstories to be presented on the main display or another, non “pop-up”type of display.

Text can be shifted in additional ways to incorporate the embodimentsdetailed herein. For example, a news or informational article cancommence with the lede text in a much larger font size than the rest ofthe article. Then, once the user scrolls or otherwise reads the article,the font for the lede text can, automatically shrink to match the fontsize for the rest of the text in the article in that same display.

Lastly, the synchronized articles described herein could readily bedistributed by news services and news agencies such as Reuters and theAssociated Press. Furthermore, an aggregator or publisher retrievingsuch synchronized articles from the news service or news agency can beenabled to modify the synchronized articles not only by editing the textand graphics, but also by, for example, increasing or decreasing thelevel of multimedia interactivity afforded to their particular users. Asa result, one publisher or aggregator could choose to present anarticle's complete array of visual multimedia to their users as photos,videos, and graphics, while another publisher or aggregator might chooseto retrieve, or present, a version in which video presentations havebeen converted into photographic presentations to reduce bandwidth usageor to better mesh with the publisher or aggregator's other newsofferings.

Flow Charts to Illustrate Computer Processes

FIGS. 30 to 38 are flow charts that help to illustrate the computerizedsteps involved in synchronizing the user's reviewing of an article'stext with related media content. Many other variations can be applied tothe following nine flow charts, but these flow charts exemplify how thekey embodiments described earlier in this patent application can beconstructed step-by-step through computerized processes.

Moreover, although terms related to a “computer-implemented method” areutilized in these flow charts, they also exemplify the computerizedprocesses that would be implemented for a “computer program product.”

FIG. 30 shows the computerized steps involved in presenting synchronizedmultimedia within the first preferred embodiment. This embodiment isdepicted, for instance, in the computerized displays of FIGS. 2, 3, 4,and 5. In the FIG. 30 flow chart example, the processor 130 retrievesfrom the computerized memory 160 the article's first multimediapresentation, consisting of the article's text coupled with at least onevideo, graphic, photograph, or other related media content. That firstmultimedia presentation is then displayed on the computer output device180. In this particular flow chart, also displayed is a scrolling cursor240 that is a component of the multimedia control. The scrolling cursor240 is initially positioned in this flow chart to correspond to a firstselect segment of text, though other variations are possible. The nextstep involves the computer's detecting that the user moved the scrollingcursor 240 so that it corresponds to the second select segment of text.As a result, a computerized operation is performed, which then leads tothe display of a second multimedia presentation of the article, where atleast one media component is changed from the first presentation, andwhere the second multimedia presentation helps to further illustrate thesecond select segment of text chosen by the user. The next step involvesthe computer's detecting that the user moved the scrolling cursor 240again, so that is corresponds to the third select segment of text. As aresult, a computerized operation is performed, which then leads to thedisplay of a third multimedia presentation of the article, where atleast one media component is changed from the second presentation, andwhere the third multimedia presentation helps to further illustrate thethird select segment of text chosen by the user. In this FIG. 30 flowchart, in lieu of a scrolling cursor 240 another type of manual orautomatic control can be utilized. As well, this flow chart illustratesthe user's making linear choices, but the user can alternatively skipfrom the first select segment of text and, for instance, head straightto the third segment of text, bypassing the second segment—along withthe presentation of the second segment's associated media.

In relation to flow chart variations, advertisements can easily beincorporated into the FIG. 30 and subsequent flow charts, wherein eachcomputerized operation that causes a new presentation of an article'srelated media content can additionally cause a change in thepresentation of at least one component of advertising content. Second,electronic touch screen controls can substitute in each of the flowcharts for a computer mouse, a track ball, or other commonly-usedelectronic controls. Third, in financial news stories, the computerizedoperations that cause a change of related media content can mainly leadto the changing in presentation of stock charts and other financialgraphics. Fourth, the user's choosing to review each new segment of textwithin an article can cause the computerized operation to present achange of related media content or, alternatively, the user's choosingto review select segments of text within each flow chart can lead to thepresenting of changed related media content within a news story, wherein“select segments” refers to either particular segments or every segment.

The flow chart depicted in FIG. 31 follows similar steps as describedabove, except that FIG. 31 emphasizes how the embodiments detailed inthis patent application can lead to a fluid interactive presentation ofmultimedia very different from the prior art. This flow chart of thecomputerized steps involved shows the multimedia control detecting theuser's choosing of a next or later selected segment of text within amultimedia article, activating a computerized operation that leads to areplacing of the first multimedia presentation. The result is acomputerized display showing a changed component of related mediacontent, whereby at least one of the changed components includes thecontinued, modified presentation of the same visual image that had beendisplayed in the first multimedia presentation. In other words, thevideo or photograph or stock chart isn't replaced; instead, it iszoomed-in or out, or its perspective is otherwise altered. The user'ssubsequent choosing of an additional segment of text could cause therelated media content to follow an identical path—further modifying thesame visual image—or it could lead to a complete replacement of thatvideo, photograph, or stock chart.

FIG. 32 specifies the computerized steps involved in the variousembodiments while specifically utilizing an automatic trackingmultimedia control that tracks a person's eye-movements or other bodymovements and then advances the related media content so that it isautomatically synchronized with the article's text actively beingreviewed by the user.

Like FIG. 32, FIG. 33 shows how an automatic tracking multimedia controlcan be incorporated into the embodiments described. This case, however,illustrates the computerized steps involved in moving from a firstmultimedia presentation to a later multimedia presentation and back to apresentation that is in-between the two. As well, this flow chartindicates that the “in-between” presentation can optionally beadditionally modified to account for the fact that the user has alreadyviewed the later presentation before viewing the earlier one. As aresult, a given publisher could, for example, decide to have the earlierpresentation skip an explanation that would've otherwise been included,or the situation could cause the earlier presentation to leave displayedan audio media component that would normally only be presented to theuser in the later presentation.

FIG. 34 shows the computerized steps involved in the second preferredembodiment, as depicted in the FIGS. 6 and 7 Illustrations ofscreenshots. The FIG. 34 flow chart steps are similar to that describedin the prior flow charts except that, in this instance, the usermanually manipulates a multimedia control within or adjacent to anoutline (or table of contents) of the article rather than within orimmediately adjacent to the main body of text. The detecting of thismultimedia control being moved then causes a computerized operation tobe performed that leads to the display of one segment of the article'smain text in a “storybook format” (or a similar accommodatingarrangement) within the multimedia presentation. Subsequent segments canbe activated in a parallel manner. As with FIG. 31, FIG. 34 offers thepossibility of displaying the continued, modified presentation of thesame visual image as the user advances to each new multimediapresentation in the article.

The computerized processes depicted in FIG. 35 can be blended with theprocesses described for any of the other flow charts. This FIG. 35 flowchart is intended to depict the computerized steps that cause at leastone element of text within the primary body of the article to shiftacross the electronic display as the associated multimedia control isre-positioned manually or automatically while the user reviews thearticle. This flow chart helps to explain the computerized processesbehind the screenshot displays shown in FIGS. 25A and 25B.

The flow chart in FIG. 36 depicts the computerized steps involved indisplaying segments of an article by positioning an electronic headlinecontrol that is associated with that same article's headline. Forexample, multiple news story headlines are retrieved from memory 160(also called a computer-useable storage medium) by the processor 13Cutilizing a computer program code. These headlines are then presented onthe computer output device 180 (such as a computer screen). Displayedwithin or adjacent to each news story headline is an electronic headlinecontrol that is able to be positioned by the user to cause thepresentation of individual article segments in a separate display, suchas a pop-up display. When the computer detects that the user has movedor otherwise activated the electronic headline control for an individualnews story headline, a computerized operation is performed that thenleads to the separate display of a first new article segment for thatparticular news story headline. When the computer detects that the userhas again moved or otherwise activated that electronic headline controlfor that same one news story headline, a second computerized operationis performed that then leads to the display of a second new articlesegment for that particular news story headline. A parallel process willlead to the presentation of additional article segments—or,alternatively, to the presentation of article segments related to theother displayed news story headlines. As well, the computerizedoperations described above can likewise cause visual images or othersupportive media presentations to be displayed and changed alongside thetext as the user activates the associated electronic headline control.Lastly, as a variation to the above, the segments of the article can bedisplayed within the same display as the news story headlines, ratherthan as a pop-up box or other separate display.

FIG. 37 reveals the computerized processes involved in presenting theFIG. 19 screenshot. FIG. 37 shows how the detecting of the user'schoosing of a different segment of text within a main article leads to acomputerized operation being performed that causes the display of a newmultimedia presentation that includes the depicting of a sidebar storythat relates to the different selected segment of text shown in the mainarticle. FIG. 37 also illustrates how the subsequent detecting of theuser's choosing of a new segment of text within the sidebar story itselfoptionally leads to a computerized operation being performed that causesthe display of a new media presentation in association with the mainarticle.

Finally, the flow chart in FIG. 38 depicts the computerized stepsinvolved in synchronizing the user's review of an advertisement's textwith related media content. These computerized processes serve topresent the computerized displays shown in FIG. 21. To begin, in FIG. 38an advertisement's current multimedia presentation is retrieved from thecomputerized memory 160 by the processor 130, and then displayed on thecomputer display device 180. Presented within or adjacent to theadvertisement is a multimedia control that is able to be positioned orotherwise activated by the user to select different segments in theadvertisement. When the computer detects that the user has moved orotherwise activated the multimedia control, a computerized operation isperformed that then leads to the display of at least one changedcomponent of related media content, where at least one of the changedcomponents includes the continued, modified presentation of the samevisual image previously displayed before the user had moved or otherwiseactivated the multimedia control. Selecting additional elements withinthe advertisement can alternate as desired between causing completechanges in presenting at least one component of related media contentand causing partial changes that lead to the continued, modifiedpresentation of the same related media content. The user's reviewing ofdifferent segments of the advertisement can be tracked through amanually manipulated electronic multimedia control or through anautomatic tracking multimedia control.

Although the above nine flow charts illustrate several variations, manyother combinations are possible, as described in greater depth earlierin this patent application and particularly as clarified in the appendedclaims.

Several Advantages of the Synchronized Article Computer-ImplementedMethods and Computer Program Products

Some advantages of the embodiments and corresponding features showninclude creating increased interest in news stories, informationalarticles, and electronic books by allowing the user to actively interactwith the content.

As well, for the first time the user has the opportunity to review acontinuous flow of changing images or other related media contentcorresponding to various segments of text being read by the user on agiven subject.

Next, whereas prior news and informational broadcasts of visual imagessuch as videos and photos mainly allow the broadcaster to control thepresentation of the content, with the user primarily a passive observer,these synchronized articles put the user completely in control. Whetherthrough manual or automatic means, the user directs the speed or eventhe nature of the multimedia presentation.

Moreover, these embodiments lead to the creation of advertisements thatare more engaging and potentially more informative. And, in someinstances, an article or advertisement's text will be designed todynamically interact with other forms of media, leading to an unusuallyentertaining presentation. Publishers will be able to intermingle textand media in unique ways within articles, ads, and ebooks, and the twowill no longer be viewed as isolated elements.

In addition, these synchronized article methods and products have thepotential to offer a lot of flexibility to publishers, aggregators,authors, and users. There are many embodiments that can be pursued whileadhering to the core concepts of these synchronized articles. Theability to design these computer-implemented methods and computerprogram products in a flexible manner means they can accommodate theneeds of publishers and aggregators in many different fields writing fora wide variety of audiences.

In short, the embodiments described herein entertain and inform the userthrough a unique interactive approach.

While the preferred embodiments, the alternative embodiments, and theirrelated features contain many specifics as is detailed in this patentapplication, these should not be construed as limitations on the scopeof the embodiments but as merely providing illustrations of some of thepresent embodiments. Additional advantages and modifications for thevarious embodiments will readily occur to those skilled in the art.Therefore, the present patent application in its broader aspects is notlimited to the specific embodiments, details, and representative devicesshown and described herein. Accordingly, various changes, substitutions,and alterations may be made to such embodiments without departing fromthe spirit or scope of the general innovative concept as defined by theappended claims. The scope of the embodiments should be determined bythe appended claims and their legal equivalents, rather than by theexamples given.

What is claimed is:
 1. A computer-implemented method for presenting on acomputer output device a news story, wherein said news story includes aprimary body of text, wherein an automatic tracking multimedia controlis implemented to track a reviewing by a user of text within said newsstory to synchronize said reviewing with a presentation of related mediacontent, including visual imagery configured primarily to illustrate thetext in said news story, wherein said automatic tracking multimediacontrol tracks eye scrolling movements of said user to direct changes ofsaid visual imagery, and wherein said automatic tracking multimediacontrol commences displaying each successive presentation of said visualimagery automatically no later than effectively simultaneous to thereviewing of each associated text segment by said user, saidcomputer-implemented method comprising: displaying on said computeroutput device a current presentation of said news story that isretrieved from a non-transitory computer-useable storage medium, whereinsaid current presentation includes at least part of said primary body oftext and an associated visual image; detecting through a computerprocessor a choosing of a select segment of text within said primarybody of text by said automatic tracking multimedia control; performingthrough said computer processor an operation, said operation responsiveto said detecting of the choosing of said select segment of text by saidautomatic tracking multimedia control, said operation causing a nextpresentation to be retrieved from said non-transitory computer-useablestorage medium, wherein said next presentation includes displaying atleast one changed component of related media content, wherein at leastone of the changed components includes a continued, modifiedpresentation of said associated visual image on said computer outputdevice; displaying on said computer output device said next presentationthat includes the at least one changed component of related mediacontent, wherein at least one of the changed components includes saidcontinued, modified presentation of said associated visual imagerelating to said select segment of text, wherein said continued,modified presentation of said associated visual image includes at leastone of a zooming-in on at least one depicted subject, a zooming-out onat least one depicted subject, a panning across at least one depictedsubject, and a change in camera perspective of at least one depictedsubject; detecting through said computer processor a choosing of a nextselect segment of text within said primary body of text by saidautomatic tracking multimedia control; performing through said computerprocessor a new operation, said new operation responsive to saiddetecting of the choosing of said next select segment of text by saidautomatic tracking multimedia control, said new operation causing a newnext presentation to be retrieved from said non-transitorycomputer-useable storage medium, wherein said new next presentationincludes displaying at least one newly changed component of relatedmedia content; displaying on said computer output device said new nextpresentation that includes the at least one newly changed component ofrelated media content, wherein said newly changed component relates tosaid next select segment of text.
 2. The computer-implemented method ofclaim 1, wherein said associated visual image includes at least one of adigital photograph and a non-animated computerized graphic.
 3. Thecomputer-implemented method of claim 1, wherein said associated visualimage includes at least one of a video and an animated computerizedgraphic.
 4. The computer-implemented method of claim 1, wherein thedisplay of said select segment of text and said associated visual imagein said news story is accompanied by a likewise continued, modifiedpresentation of a visual advertisement, wherein said likewise continued,modified presentation of said visual advertisement is at least in partconfigured to mirror alterations in said associated visual image in saidnews story, and wherein said likewise continued, modified presentationof said visual advertisement includes at least one of a zooming-in on atleast one depicted advertising subject, a zooming-out on at least onedepicted advertising subject, a panning across at least one depictedadvertising subject, and a change in camera perspective of at least onedepicted advertising subject.
 5. A computer-implemented method forpresenting on a computer output device a news story, wherein said newsstory includes a main text body, wherein a scrolling-oriented multimediacontrol is implemented to synchronize a reviewing by a user of said maintext body in said news story to presentations of related media content,including visual imagery configured primarily to illustrate at leastpart of said main text body, and wherein said scrolling-orientedmultimedia control commences displaying each successive presentation ofsaid visual imagery automatically no later than effectively simultaneousto the reviewing of each associated text segment by said user, saidcomputer-implemented method comprising: displaying on said computeroutput device a current presentation of said news story that isretrieved from a non-transitory computer-useable storage medium, whereinsaid current presentation at least includes a current selected segmentof said main text body, an associated visual image, and at least part ofsaid scrolling-oriented multimedia control; detecting through a computerprocessor a choosing of a first new select segment of said main textbody by said scrolling-oriented multimedia control; performing throughsaid computer processor an operation, said operation responsive to saiddetecting of the choosing of said first new select segment of said maintext body by said scrolling-oriented multimedia control, said operationcausing a next presentation to be retrieved from said non-transitorycomputer-useable storage medium, wherein said next presentation includesdisplaying said first new select segment of said main text body coupledwith at least one changed component of related media content, wherein atleast one of the changed components includes a continued, modifiedpresentation of said associated visual image on said computer outputdevice; displaying on said computer output device said next presentationthat includes said first new select segment of said main text body andthe at least one changed component of related media content, wherein atleast one of the changed components includes said continued, modifiedpresentation of said associated visual image relating to said first newselect segment of said main text body, wherein said continued, modifiedpresentation of said associated visual image includes at least one of azooming-in on at least one depicted subject, a zooming-out on at leastone depicted subject, a panning across at least one depicted subject,and a change in camera perspective of at least one depicted subject;detecting through said computer processor a choosing of a second newselect segment of said main text body by said scrolling-orientedmultimedia control; performing through said computer processor a newoperation, said new operation responsive to said detecting of thechoosing of said second new select segment of said main text body bysaid scrolling-oriented multimedia control, said new operation causing anew next presentation to be retrieved from said non-transitorycomputer-useable storage medium, wherein said new next presentationincludes displaying said second new select segment of said main textbody coupled with at least one newly changed component of related mediacontent; displaying on said computer output device said new nextpresentation that includes said second new select segment of said maintext body and the at least one newly changed component of related mediacontent, wherein said newly changed component relates to said second newselect segment of said main text body.
 6. The computer-implementedmethod of claim 5, wherein said associated visual image is at least oneof a video and an animated computerized graphic.
 7. Thecomputer-implemented method of claim 5, wherein said associated visualimage is at least one of a digital photograph and a non-animatedcomputerized graphic.
 8. The computer-implemented method of claim 5,wherein the computer output device informs said user in advance throughat least one visual indicator as to when related media content changeswill take place during the reviewing by said user of said news story. 9.The computer-implemented method of claim 5, wherein the display of saidfirst new select segment in said main text body and the modified relatedmedia content in said news story is accompanied by a likewise continued,modified presentation of a visual advertisement, wherein said likewisecontinued, modified presentation of said visual advertisement is atleast in part configured to mirror alterations in said modified relatedmedia content in said news story, and wherein said likewise continued,modified presentation of said visual advertisement includes at least oneof a zooming-in on at least one depicted advertising subject, azooming-out on at least one depicted advertising subject, a panningacross at least one depicted advertising subject, and a change in cameraperspective of at least one depicted advertising subject.
 10. Acomputer-implemented method for presenting on a computer output device anews story, wherein said news story is presented at least primarily on asingle electronic page, wherein said news story includes a primary bodyof text, wherein a user activates a scrolling-oriented electronic touchscreen control to synchronize text presented within said news story torelated media content presented, including visual imagery configuredprimarily to illustrate associated text in said news story, and whereinsaid scrolling-oriented electronic touch screen control commencesdisplaying each successive presentation of said visual imageryautomatically no later than effectively simultaneous to a reviewing ofeach associated text segment by said user, said computer-implementedmethod comprising: displaying on said computer output device a currentpresentation of said news story that is retrieved from a non-transitorycomputer-useable storage medium, wherein said current presentation atleast includes a current segment of text from said primary body of textand at least one associated visual image; detecting through a computerprocessor a maneuvering by said user of said scrolling-orientedelectronic touch screen control to choose a select next segment of textwithin said primary body of text; performing through said computerprocessor an operation responsive to said detecting of said maneuveringby said user of said scrolling-oriented electronic touch screen controlto choose said select next segment of text, said operation causing anext media presentation to be retrieved from said non-transitorycomputer-useable storage medium, wherein said next media presentationincludes displaying said select next segment of text and at least onechanged component of related media content, wherein at least one of thechanged components includes a continued, modified presentation of atleast one of said at least one associated visual image on said singleelectronic page of said computer output device; displaying on saidcomputer output device said next media presentation that includes saidselect next segment of text and said at least one changed component ofrelated media content, wherein said changed component relates to saidselect next segment of text, wherein at least one of the changedcomponents includes said continued, modified presentation of at leastone of said at least one associated visual image relating to said selectnext segment of text, wherein said continued, modified presentation ofat least one of said at least one associated visual image includes atleast one visual enhancement presented on said single electronic page ofsaid computer output device, and wherein said visual enhancement is aresult of at least one of changing at least one associated camera'svisual perspective of at least one depicted subject, zooming-in on atleast one depicted subject, zooming-out on at least one depictedsubject, panning across at least one depicted subject, moving at leastone camera toward at least one depicted subject, and moving at least onecamera away from at least one depicted subject; detecting through saidcomputer processor a new maneuvering by said user of saidscrolling-oriented electronic touch screen control to choose a newselect next segment of text within said primary body of text; performingthrough said computer processor a new operation responsive to saiddetecting of said new maneuvering by said user of saidscrolling-oriented electronic touch screen control to choose said newselect next segment of text, said new operation causing a new next mediapresentation to be retrieved from said non-transitory computer-useablestorage medium, wherein said new next media presentation includesdisplaying said new select next segment of text and at least one newlychanged component of related media content on said single electronicpage of said computer output device; displaying on said computer outputdevice said new next media presentation that includes said new selectnext segment of text and said at least one newly changed component ofrelated media content, wherein said at least one newly changed componentrelates to said new select next segment of text displayed on said singleelectronic page of said computer output device.
 11. Thecomputer-implemented method of claim 10, wherein said at least oneassociated visual image includes a digital photograph.
 12. Thecomputer-implemented method of claim 10, wherein said at least oneassociated visual image includes a video.
 13. A computer-implementedmethod for presenting on a computer output device a financial newsstory, wherein said financial news story includes a main text body,wherein a scrolling-oriented multimedia control is implemented tosynchronize a reviewing by a user of select text segments within saidmain text body of said financial news story to presentations of relatedmedia content, including at least one financial graphic configuredprimarily to illustrate at least part of said main text body in saidfinancial news story, and wherein said scrolling-oriented multimediacontrol automatically commences displaying each successive presentationof said at least one financial graphic no later than effectivelysimultaneous to the reviewing of each associated text segment by saiduser, said computer-implemented method comprising: displaying on saidcomputer output device a current presentation of said financial newsstory that is retrieved from a non-transitory computer-useable storagemedium, wherein said current presentation includes at least part of saidmain text body, a related financial graphic, and at least part of saidscrolling-oriented multimedia control; detecting through a computerprocessor a choosing of a select segment of text within said main textbody by said scrolling-oriented multimedia control; performing throughsaid computer processor an operation, said operation responsive to saiddetecting of the choosing of said select segment of text by saidscrolling-oriented multimedia control, said operation causing a nextpresentation to be retrieved from said non-transitory computer-useablestorage medium, wherein said next presentation includes displaying atleast one changed component of related media content, wherein at leastone of the changed components includes a continued, modifiedpresentation of said related financial graphic on said computer outputdevice; displaying on said computer output device said next presentationthat includes said at least one changed component of related mediacontent, wherein said at least one of the changed components includessaid continued, modified presentation of said related financial graphicto help illustrate said select segment of text, wherein said relatedfinancial graphic includes one or more securities charts, and wherein apredetermined portion of at least one of said one or more securitiescharts is visually modified when said current presentation is replacedby said next presentation; detecting through said computer processor achoosing of a next select segment of text within said main text body bysaid scrolling-oriented multimedia control; performing through saidcomputer processor a new operation, said new operation responsive tosaid detecting of the choosing of said next select segment of text bysaid scrolling-oriented multimedia control, said new operation causing anew next presentation to be retrieved from said non-transitorycomputer-useable storage medium, wherein said new next presentationincludes displaying at least one newly changed component of relatedmedia content, wherein at least one of the newly changed componentsincludes a changed financial graphic that helps to illustrate said nextselect segment of text; displaying on said computer output device saidnew next presentation that includes said at least one newly changedcomponent of related media content, wherein said at least one of thenewly changed components is said changed financial graphic that helps toillustrate said next select segment of text.
 14. Thecomputer-implemented method of claim 13, wherein said predeterminedportion of at least one of said one or more securities charts isvisually modified by at least one of adding at least one technicalindicator, removing at least one technical indicator, changing at leastone technical indicator, adding at least one trendline, removing atleast one trendline, changing at least one trendline, adding visualprice data, and removing visual price data.
 15. A computer programproduct for presenting an electronic document, wherein said electronicdocument is defined as at least one of a news story, an informationalarticle, and an electronic book, wherein a manual choosing by a user ofselect text segments within said electronic document is synchronizedthrough a scrolling-oriented multimedia control with presentations ofrelated media content, including an associated video configuredprimarily to illustrate at least part of a primary body of text in saidelectronic document, and wherein said scrolling-oriented multimediacontrol commences displaying each successive presentation of visualimagery automatically no later than effectively simultaneous to areading of each associated text segment by said user, said computerprogram product comprising: a computer processor having a computeroutput device; a non-transitory computer-useable storage medium having acomputer-readable program embedded therein, said computer-readableprogram being executable by said computer processor, saidcomputer-readable program including at least part of saidscrolling-oriented multimedia control; said computer program arranged tocause said computer processor to store on said non-transitorycomputer-useable storage medium and display on said computer outputdevice a current presentation of said electronic document, wherein saidcurrent presentation includes at least part of said primary body oftext, said associated video, and at least part of saidscrolling-oriented multimedia control; said computer program thenarranged to cause said computer processor to detect an activating bysaid user of said scrolling-oriented multimedia control to select a nextsegment of text within said primary body of text; said computer programthen arranged to cause said computer processor to retrieve from saidnon-transitory computer-useable storage medium and display on saidcomputer output device a next presentation of said electronic document,wherein said next presentation includes displaying one or more changedcomponents of related media content, wherein at least one of the changedcomponents includes a continued, modified presentation of saidassociated video to help illustrate said next segment of text chosenfrom said primary body of text, wherein said continued, modifiedpresentation of said associated video includes at least one visualenhancement, wherein said at least one visual enhancement includes atleast one of zooming-in on at least one depicted subject in saidassociated video, zooming-out on at least one depicted subject in saidassociated video, appearing to move at least one associated cameratoward at least one depicted subject in said associated video, appearingto move at least one associated camera away from at least one depictedsubject in said associated video, and panning across at least onedepicted subject in said associated video; said computer program thenarranged to cause said computer processor to detect a new activating bysaid user of said scrolling-oriented multimedia control to select a newnext segment of text within said primary body of text; said computerprogram then arranged to cause said computer processor to retrieve fromsaid non-transitory computer-useable storage medium and display on saidcomputer output device a new next presentation of said electronicdocument, wherein said new next presentation includes displaying one ormore changed components of related media content to help illustrate saidof said new next segment of text chosen from said primary body of text.16. The computer program product of claim 15, wherein said at least onevisual enhancement further includes at least one of changing a visualperspective of at least one depicted subject in said associated videoand visually highlighting at least one element in said associated video.17. The computer program product of claim 15, wherein the display ofsaid next segment text and said related media content within saidelectronic document are accompanied by a likewise continued, modifiedpresentation of at least one visual advertisement, wherein said likewisecontinued, modified presentation of said at least one visualadvertisement is at least in part configured to mirror alterations insaid related media content within said electronic document, and whereinsaid likewise continued, modified presentation of said at least onevisual advertisement includes at least one of zooming-in on at least onedepicted advertising subject, zooming-out on at least one depictedadvertising subject, panning across at least one depicted advertisingsubject, and a change in camera perspective of at least one depictedadvertising subject.
 18. A computer program product for presenting anelectronic document, wherein said electronic document is defined as atleast one of a news story, an informational article, and an electronicbook, wherein an automatic tracking multimedia control synchronizes areviewing by a user of select text segments within said electronicdocument with presentations of related media content, including anassociated video configured primarily to illustrate at least part of aprimary body of text in said electronic document, wherein said automatictracking multimedia control tracks eye scrolling movements of said userto direct changes of visual imagery, and wherein said automatic trackingmultimedia control commences displaying each successive presentation ofsaid visual imagery automatically no later than effectively simultaneousto the reviewing of each associated text segment by said user, saidcomputer program product comprising: a computer processor having acomputer output device; a non-transitory computer-useable storage mediumhaving a computer-readable program embedded therein, saidcomputer-readable program being executable by said computer processor,said computer-readable program including at least part of said automatictracking multimedia control; said computer program arranged to causesaid computer processor to store on said non-transitory computer-useablestorage medium and display on said computer output device a currentpresentation of said electronic document, wherein said currentpresentation includes at least part of said primary body of text andsaid associated video; said computer program then arranged to cause saidcomputer processor to detect an activating of said automatic trackingmultimedia control to select a next segment of text within said primarybody of text; said computer program then arranged to cause said computerprocessor to retrieve from said non-transitory computer-useable storagemedium and display on said computer output device a next presentation ofsaid electronic document, wherein said next presentation includesdisplaying one or more changed components of related media content,wherein at least one of the changed components includes a continued,modified presentation of said associated video to help illustrate saidnext segment of text chosen from said primary body of text, wherein saidcontinued, modified presentation of said associated video includes atleast one visual enhancement, wherein said at least one visualenhancement includes at least one of zooming-in on at least one depictedsubject in said associated video, zooming-out on at least one depictedsubject in said associated video, appearing to move at least oneassociated camera toward at least one depicted subject in saidassociated video, appearing to move at least one associated camera awayfrom at least one depicted subject in said associated video, and panningacross at least one depicted subject in said associated video; saidcomputer program then arranged to cause said computer processor todetect a new activating of said automatic tracking multimedia control toselect a new next segment of text within said primary body of text; saidcomputer program then arranged to cause said computer processor toretrieve from said non-transitory computer-useable storage medium anddisplay on said computer output device a new next presentation of saidelectronic document, wherein said new next presentation includesdisplaying one or more changed components of related media content tohelp illustrate said new next segment of text chosen from said primarybody of text.
 19. The computer program product of claim 18, wherein saidat least one visual enhancement further includes at least one ofchanging a visual perspective of at least one depicted subject in saidassociated video and visually highlighting at least one element of saidassociated video.
 20. A computer program product for presenting anelectronic document, wherein said electronic document is defined as atleast one of a news story, an informational article, and an electronicbook, wherein a choosing by a user of select text segments within saidelectronic document is synchronized through a scrolling-orientedmultimedia control with presentations of related media content,including at least one digital photograph configured primarily toillustrate at least part of a primary body of text in said electronicdocument, and wherein said scrolling-oriented multimedia controlcommences displaying each successive presentation of visual imageryautomatically no later than effectively simultaneous to a reading ofeach associated text segment by said user, said computer program productcomprising: a computer processor having a computer output device; anon-transitory computer-useable storage medium having acomputer-readable program embedded therein, said computer-readableprogram being executable by said computer processor, saidcomputer-readable program including at least part of saidscrolling-oriented multimedia control; said computer program arranged tocause said computer processor to store on said non-transitorycomputer-useable storage medium and display on said computer outputdevice a current presentation of said electronic document, wherein saidcurrent presentation includes at least part of said primary body of textand at least one associated digital photograph; said computer programthen arranged to cause said computer processor to detect an activatingof said scrolling-oriented multimedia control to select a next segmentof text within said primary body of text; said computer program thenarranged to cause said computer processor to retrieve from saidnon-transitory computer-useable storage medium and display on saidcomputer output device a next presentation of said electronic document,wherein said next presentation includes displaying one or more changedcomponents of related media content, wherein at least one of the changedcomponents includes a continued, modified presentation of at least oneof the associated digital photographs to help illustrate said nextsegment of text chosen from said primary body of text, wherein saidcontinued, modified presentation of at least one of the associateddigital photographs includes at least one visual enhancement, whereinsaid at least one visual enhancement includes at least one ofzooming-in, zooming-out, and panning across at least one depictedsubject in at least one of the associated digital photographs; saidcomputer program then arranged to cause said computer processor todetect a new activating of said scrolling-oriented multimedia control toselect a new next segment of text within said primary body of text; saidcomputer program then arranged to cause said computer processor toretrieve from said non-transitory computer-useable storage medium anddisplay on said computer output device a new next presentation of saidelectronic document, wherein said new next presentation includesdisplaying one or more changed components of related media content tohelp illustrate said new next segment of text chosen from said primarybody of text.
 21. The computer program product of claim 20, wherein saidat least one visual enhancement further includes visually highlightingat least one element in at least one of the associated digitalphotographs presented.
 22. The computer program product of claim 20,wherein said at least one visual enhancement further includes one ofincreasing a display size of at least one of the associated digitalphotographs displayed and decreasing the display size of at least one ofthe associated digital photographs displayed.
 23. The computer programproduct of claim 20, wherein the display of said next segment text andsaid related media content within said electronic document areaccompanied by a likewise continued, modified presentation of at leastone visual advertisement, wherein said likewise continued, modifiedpresentation of said at least one visual advertisement is at least inpart configured to mirror alterations in said related media contentwithin said electronic document, and wherein said likewise continued,modified presentation of said at least one visual advertisement includesat least one of zooming-in on at least one depicted advertising subject,zooming-out on at least one depicted advertising subject, panning acrossat least one depicted advertising subject, and a change in cameraperspective of at least one depicted advertising subject.
 24. A computerprogram product for presenting an electronic document, wherein saidelectronic document is defined as at least one of a news story, aninformational article, and an electronic book, wherein ascrolling-oriented multimedia control synchronizes a reviewing by a userof select text segments with presentations of related media content,including at least one holographic image configured primarily toillustrate at least part of a primary body of text in said electronicdocument, and wherein said scrolling-oriented multimedia controlautomatically commences displaying each successive presentation ofholographic imagery no later than effectively simultaneous to thereviewing of each associated text segment by said user, said computerprogram product comprising: a computer processor having a computeroutput device; a non-transitory computer-useable storage medium having acomputer-readable program embedded therein, said computer-readableprogram being executable by said computer processor, saidcomputer-readable program including at least part of saidscrolling-oriented multimedia control; said computer program arranged tocause said computer processor to store on said non-transitorycomputer-useable storage medium and display on said computer outputdevice a current presentation of said electronic document, wherein saidcurrent presentation includes at least part of said primary body of textand at least one associated holographic image; said computer programthen arranged to cause said computer processor to detect an activatingof said scrolling-oriented multimedia control to select a next segmentof text within said primary body of text; said computer program thenarranged to cause said computer processor to retrieve from saidnon-transitory computer-useable storage medium and display on saidcomputer output device a next presentation of said electronic document,wherein said next presentation includes displaying one or more changedcomponents of related media content, wherein at least one of the changedcomponents includes a continued, modified presentation of said at leastone associated holographic image to help illustrate said next segment oftext chosen within said primary body of text, wherein alteration of saidat least one associated holographic image includes at least one visualenhancement, wherein said at least one visual enhancement includes atleast one of zooming-in on at least one holographically depictedsubject, zooming-out on at least one holographically depicted subject,panning across at least one holographically depicted subject, andchancing at least one camera's perspective of at least oneholographically depicted subject; said computer program then arranged tocause said computer processor to detect a new activating of saidscrolling-oriented multimedia control to select a new next segment oftext within said primary body of text; said computer program thenarranged to cause said computer processor to retrieve from saidnon-transitory computer-useable storage medium and display on saidcomputer output device a new next presentation of said electronicdocument, wherein said new next presentation includes displaying one ormore changed components of related media content to help illustrate saidnew next segment of text chosen within said primary body of text. 25.The computer program product of claim 24, wherein the at least onevisual enhancement further includes at least one of enlarging a size ofat least one associated holographic image displayed and decreasing thesize of at least one associated holographic image displayed.
 26. Thecomputer program product of claim 24, wherein the at least one visualenhancement further includes visually highlighting at least one elementof at least one associated holographic image.
 27. A computer programproduct for presenting an electronic document, wherein said electronicdocument is defined as at least one of a news story, an informationalarticle, and an electronic book, wherein a choosing by a user of selecttext within said electronic document is synchronized through ascrolling-oriented multimedia control with a related media contentpresentation, including at least one visual image configured primarilyto illustrate at least part of a primary body of text in said electronicdocument, wherein said scrolling-oriented multimedia controlautomatically commences displaying each successive presentation ofvisual imagery no later than effectively simultaneous to a reading ofeach associated text segment by said user, and wherein a rate of speedreviewing select text by said user modifies the presentation of said atleast one visual image, said computer program product comprising: acomputer processor having a computer output device; a non-transitorycomputer-useable storage medium having a computer-readable programembedded therein, said computer-readable program being executable bysaid computer processor, said computer-readable program including atleast part of said scrolling-oriented multimedia control; said computerprogram arranged to cause said computer processor to store on saidnon-transitory computer-useable storage medium and display on saidcomputer output device a current presentation of said electronicdocument, wherein said current presentation includes at least part ofsaid primary body of text and at least one associated visual image; saidcomputer program then arranged to cause said computer processor todetect an activating of said scrolling-oriented multimedia control toselect a next segment of text within said primary body of text; saidcomputer program then arranged to cause said computer processor toretrieve from said non-transitory computer-useable storage medium anddisplay on said computer output device a next presentation of saidelectronic document, wherein said next presentation includes displayingone or more changed components of related media content, wherein atleast one of the changed components includes a continued, modifiedpresentation of said at least one associated visual image, with saidcontinued, modified presentation configured primarily to help illustratesaid next segment of text chosen within said primary body of text,wherein said at least one associated visual image is at least one of avideo and a digital photograph, wherein said at least one associatedvisual image is modified based on said rate of speed reviewing said nextsegment of text by said user, and wherein alteration of said at leastone associated visual image includes at least one of a zooming-in on atleast one depicted subject, a zooming-out on at least one depictedsubject, and a panning across at least one depicted subject; saidcomputer program then arranged to cause said computer processor todetect a new activating of said scrolling-oriented multimedia control toselect a new next segment of text within said primary body of text; saidcomputer program then arranged to cause said computer processor toretrieve from said non-transitory computer-useable storage medium anddisplay on said computer output device a new next presentation of saidelectronic document, wherein said new next presentation includesdisplaying one or more changed components of related media content tohelp illustrate said new next segment of text chosen within said primarybody of text.
 28. The computer program product of claim 27, wherein atleast one of a speed and an extent of at least one of said zooming-in onat least one depicted subject and said zooming-out on at least onedepicted subject changes based on the rate of speed by said user to readat least one associated text segment.
 29. The computer program productof claim 27, wherein at least one of a speed and an extent of saidpanning across at least one depicted subject changes based on the rateof speed by said user to read at least one associated text segment. 30.The computer program product of claim 27, wherein at least one ofzooming and panning is activated as a result of a detection of apredetermined reading speed for said user.
 31. A computer-implementedmethod for presenting on a computer output device a financial newsstory, wherein said financial news story includes a main text body,wherein an automatic tracking multimedia control is implemented tosynchronize a reviewing by a user of select text segments within saidmain text body of said financial news story to presentations of relatedmedia content, including at least one financial graphic configuredprimarily to illustrate at least part of said main text body in saidfinancial news story, wherein said automatic tracking multimedia controltracks eye scrolling movements of said user to direct changes of said atleast one financial graphic, and wherein said automatic trackingmultimedia control automatically commences displaying each successivepresentation of said at least one financial graphic no later thaneffectively simultaneous to the reviewing of each associated textsegment by said user, said computer-implemented method comprising:displaying on said computer output device a current presentation of saidfinancial news story that is retrieved from a non-transitorycomputer-useable storage medium, wherein said current presentationincludes at least part of said main text body, a related financialgraphic, and at least part of said automatic tracking multimediacontrol; detecting through a computer processor a choosing of a selectsegment of text within said main text body by said automatic trackingmultimedia control; performing through said computer processor anoperation, said operation responsive to said detecting of the choosingof said select segment of text by said automatic tracking multimediacontrol, said operation causing a next presentation to be retrieved fromsaid non-transitory computer-useable storage medium, wherein said nextpresentation includes displaying at least one changed component ofrelated media content, wherein at least one of the changed componentsincludes a continued, modified presentation of said related financialgraphic on said computer output device; displaying on said computeroutput device said next presentation that includes said at least onechanged component of related media content, wherein said at least one ofthe changed components includes said continued, modified presentation ofsaid related financial graphic to help illustrate said select segment oftext, wherein said related financial graphic includes one or moresecurities charts, and wherein a predetermined portion of at least oneof said one or more securities charts is visually modified when saidcurrent presentation is replaced by said next presentation; detectingthrough said computer processor a choosing of a next select segment oftext within said main text body by said automatic tracking multimediacontrol; performing through said computer processor a new operation,said new operation responsive to said detecting of the choosing of saidnext select segment of text by said automatic tracking multimediacontrol, said new operation causing a new next presentation to beretrieved from said non-transitory computer-useable storage medium,wherein said new next presentation includes displaying at least onenewly changed component of related media content, wherein at least oneof the newly changed components includes a changed financial graphicthat helps to illustrate said next select segment of text; displaying onsaid computer output device said new next presentation that includessaid at least one newly changed component of related media content,wherein said at least one of the newly changed components is saidchanged financial graphic that helps to illustrate said next selectsegment of text.
 32. The computer-implemented method of claim 31,wherein said predetermined portion of at least one of said one or moresecurities charts is visually modified by at least one of adding atleast one technical indicator, removing at least one technicalindicator, changing at least one technical indicator, adding at leastone trendline, removing at least one trendline, changing at least onetrendline, adding visual price data, and removing visual price data. 33.A computer program product for presenting an electronic document,wherein said electronic document is defined as at least one of a newsstory, an informational article, and an electronic book, wherein achoosing by a user of select text segments to review within saidelectronic document is synchronized through an automatic trackingmultimedia control with presentations of related media content,including at least one digital photograph configured primarily toillustrate at least part of a primary body of text in said electronicdocument, wherein said automatic tracking multimedia control tracks eyescrolling movements of said user to direct changes of visual imagery,and wherein said automatic tracking multimedia control commencesdisplaying each successive presentation of said visual imageryautomatically no later than effectively simultaneous to the reviewing ofeach associated text segment by said user, said computer program productcomprising: a computer processor having a computer output device; anon-transitory computer-useable storage medium having acomputer-readable program embedded therein, said computer-readableprogram being executable by said computer processor, saidcomputer-readable program including at least part of said automatictracking multimedia control; said computer program arranged to causesaid computer processor to store on said non-transitory computer-useablestorage medium and display on said computer output device a currentpresentation of said electronic document, wherein said currentpresentation includes at least part of said primary body of text and atleast one associated digital photograph; said computer program thenarranged to cause said computer processor to detect an activating ofsaid automatic tracking multimedia control to select a next segment oftext within said primary body of text; said computer program thenarranged to cause said computer processor to retrieve from saidnon-transitory computer-useable storage medium and display on saidcomputer output device a next presentation of said electronic document,wherein said next presentation includes displaying one or more changedcomponents of related media content, wherein at least one of the changedcomponents includes a continued, modified presentation of at least oneof the associated digital photographs to help illustrate presentation ofsaid next segment of text chosen from said primary body of text, whereinsaid continued, modified presentation of at least one of the associateddigital photographs includes at least one visual enhancement, whereinsaid at least one visual enhancement includes at least one ofzooming-in, zooming-out, and panning across at least one depictedsubject in at least one of the associated digital photographs; saidcomputer program then arranged to cause said computer processor todetect a new activating of said automatic tracking multimedia control toselect a new next segment of text within said primary body of text; saidcomputer program then arranged to cause said computer processor toretrieve from said non-transitory computer-useable storage medium anddisplay on said computer output device a new next presentation of saidelectronic document, wherein said new next presentation includesdisplaying one or more changed components of related media content tohelp illustrate said new next segment of text chosen from said primarybody of text.
 34. The computer program product of claim 33, wherein saidat least one visual enhancement further includes visually highlightingat least one element in at least one of the associated digitalphotographs presented.
 35. The computer program product of claim 33,wherein at least one of a speed and an extent of at least one of saidzooming-in and said zooming-out is changed based on a reading speed bysaid user for at least one associated text segment.
 36. The computerprogram product of claim 33, wherein at least one of a speed and anextent of said panning across at least one depicted subject in at leastone of the associated digital photographs is changed based on a readingspeed by said user for at least one associated text segment.
 37. Acomputer-implemented method for synchronizing electronically-presentedtext with electronically-presented visual imagery, theelectronically-presented visual imagery configured, at least in part, toillustrate the electronically-presented text, theelectronically-presented text included in a primary body of text, theprimary body of text being a part of a news story, an informationalarticle, and/or an electronic book, the synchronization configured to beachieved, at least in part, through a scrolling-oriented multimediacontrol, the scrolling-oriented multimedia control enabling a user tochoose one or more scrolling positions, the computer-implemented methodcomprising: (a) displaying on a computer output device a currentpresentation, the current presentation retrieved from a non-transitorycomputer-useable storage medium and displayed as a result of at leastone operation executed by a computer processor, the current presentationincluding at least a part of the primary body of text and an associatedvisual image; (b) detecting, through the scrolling-oriented multimediacontrol, an advancing by the user to a predetermined scrolling positionfor the primary body of text; (c) displaying, in response to thedetecting, a next presentation on the computer output device, the nextpresentation retrieved from the non-transitory computer-useable storagemedium and displayed as result of at least one new operation executed bythe computer processor, the next presentation including a select textsegment within the primary body of text, the next presentation includinga modified display of the associated visual image on the computer outputdevice, the modified display of the associated visual image configured,at least in part, to illustrate the select text segment, and themodified display including at least one zoomed-in display of at leastone depicted subject in the associated visual image and/or at least onezoomed-out display of at least one depicted subject in the associatedvisual image; (d) wherein the modified display of the associated visualimage automatically commences being displayed after the detecting of theadvancing to the predetermined scrolling position.
 38. Thecomputer-implemented method of claim 37, wherein the display of the nextpresentation is followed by a subsequent detecting, through thescrolling-oriented multimedia control, of a choosing by the user of asubsequent predetermined scrolling position for the primary body oftext, this subsequent detecting causing the computer processor toretrieve from the non-transitory computer-useable storage medium atleast one instruction that causes a second next presentation to bedisplayed by the computer processor on the computer output device, thesecond next presentation including a further modified display of theassociated visual image, the second next presentation further includinga next select text segment within the primary body of text, wherein thefurther modified display of the associated visual image is configured,at least in part, to illustrate the next select text segment.
 39. Thecomputer-implemented method of claim 37, the computer output devicefurther including a display of at least part of the scrolling-orientedmultimedia control, the display of the at least part of thescrolling-oriented multimedia control configured to enable the user toadvance to the predetermined scrolling position for the primary body oftext.
 40. The computer-implemented method of claim 37, further includingconfiguring at least part of the computer output device as atouch-screen display, and further including configuring thescrolling-oriented multimedia control to include a touch-screen control,the user then enabled to implement the touch-screen control to advanceto the predetermined scrolling position for the primary body of text.41. The computer-implemented method of claim 37, wherein the associatedvisual image includes at least one of the following group consisting ofa photograph, a non-animated computerized graphic, and/or a non-animatedholographic image.
 42. The computer-implemented method of claim 37, withthe current presentation further configured to include a display of avisual advertisement, and with the next presentation then furtherconfigured to include a modified display of the visual advertisement,the modified display of the visual advertisement including at least onezoomed-in display of at least one depicted subject in the visualadvertisement and/or at least one zoomed-out display of at least onedepicted subject in the visual advertisement.
 43. A computer-implementedmethod for synchronizing electronically-presented text withelectronically-presented related media content, theelectronically-presented related media content configured, at least inpart, to illustrate the electronically-presented text, theelectronically-presented text included in a primary body of text, theprimary body of text being a part of a news story, an informationalarticle, and/or an electronic book, the synchronization configured to beachieved, at least in part, through a scrolling-oriented multimediacontrol, the scrolling-oriented multimedia control enabling a user tochoose one or more select scrolling positions, the computer-implementedmethod comprising: (a) displaying on a computer output device a currentpresentation, the current presentation being retrieved from anon-transitory computer-useable storage medium and displayed as a resultof at least one operation executed by a computer processor, the currentpresentation including at least a part of the primary body of text, thecurrent presentation further including visually-presented related mediacontent; (b) detecting, through the scrolling-oriented multimediacontrol, an advancing by the user to a new select scrolling position forthe primary body of text; (c) displaying, in response to the detecting,a next presentation on the computer output, the next presentationretrieved from the non-transitory computer-useable storage medium anddisplayed as a result of at least one new operation executed by thecomputer processor, the next presentation including a select textsegment within the primary body of text, the next presentation furtherincluding modifying the visually-presented related media contentresulting in a modified display of the visually-presented related mediacontent, the modified display of the visually-presented related mediacontent configured, at least in part, to illustrate the select textsegment, and the modified display including a change in visualperspective in one or more images included in the visually-presentedrelated media content; (d) wherein, as a result of the advancement tothe new select scrolling position, the modified display of thevisually-presented related media content automatically commences beingdisplayed to, at least in part, illustrate the select text segment forthe user.
 44. The computer-implemented method of claim 43, wherein thechange in visual perspective in the one or more images included in thevisually-presented related media content comprises a moving of at leastone camera relative to at least one subject depicted in at least one ofthe images.
 45. The computer-implemented method of claim 43, thecomputer output device further including a display of at least part ofthe scrolling-oriented multimedia control, the display of the at leastpart of the scrolling-oriented multimedia control configured to enablethe user to advance to the new select scrolling position for the primarybody of text.
 46. The computer-implemented method of claim 43, furtherincluding configuring at least part of the computer output device as atouch-screen display, and further including configuring thescrolling-oriented multimedia control to include a touch-screen control,the user then enabled to implement the touch-screen control to advanceto the new select scrolling position for the primary body of text. 47.The computer-implemented method of claim 43, wherein at least one of theone or more images included in the visually-presented related mediacontent is comprised of at least one photograph, at least onenon-animated computerized graphic, and/or at least one non-animatedholographic image.
 48. The computer-implemented method of claim 43,wherein at least one of the one or more images included in thevisually-presented related media content is comprised of at least onevideo, at least one computerized graphic, at least one animatedcomputerized graphic, and/or at least one animated holographic image.49. The computer-implemented method of claim 43, with the currentpresentation further configured to include a display of a visualadvertisement, and with the next presentation then further configured toinclude a modified display of the visual advertisement, the modifieddisplay of the visual advertisement including a change in visualperspective in the visual advertisement.
 50. The computer-implementedmethod of claim 43, wherein the scrolling-oriented multimedia control isfurther configured to detect a rate of speed by the user to review atleast part of the electronically-presented text, the detected rate ofspeed then configured to alter the modified display of at least one ofthe one or more images included in the visually-presented related mediacontent.
 51. The computer-implemented method of claim 43, wherein thechange in the visual perspective is, at least in part, a change invisual perspective toward at least one photographed and/or videoedsubject depicted in at least one of the one or more images.
 52. Acomputer-implemented method for synchronizing electronically-presentedtext with electronically-presented related media content, theelectronically-presented related media content configured, at least inpart, to illustrate the electronically-presented text, theelectronically-presented text included in a primary body of text, theprimary body of text being a part of a news story, an informationalarticle, and/or an electronic book, the synchronization configured to beachieved, at least in part, through an automatic tracking multimediacontrol, the automatic tracking multimedia control configured to managevisual imagery changes at least in part by tracking eye-scrollingmovements of a user, the computer-implemented method comprising: (a)displaying on a computer output device a current presentation, thecurrent presentation retrieved from a non-transitory computer-useablestorage medium and displayed as a result of at least one operationexecuted by a computer processor, the current presentation including atleast a part of the primary body of text, the current presentationfurther including visually-presented related media content; (b)detecting, through the automatic tracking multimedia control configuredto track eye-scrolling movements, a viewing by the user of apredetermined position in the primary body of text; (c) displaying, inresponse to the detecting, a next presentation on the computer outputdevice, the next presentation retrieved from the non-transitorycomputer-useable storage medium and displayed as a result of at leastone new operation executed by the computer processor, the nextpresentation including the modified display of the visually-presentedrelated media content, the modified display of the visually-presentedrelated media content configured, at least in part, to illustrate aselect text segment within the primary body of text, the select textsegment presently being viewed by the user, and the modified displayincluding a change in visual perspective in one or more images includedin the visually-presented related media content; (d) wherein, as aresult of the viewing by the user of the predetermined position in theprimary body of text, the modified display of the visually-presentedrelated media content automatically commences being displayed to, atleast in part, illustrate the select text segment for the user.
 53. Thecomputer-implemented method of claim 52, wherein the change in visualperspective in the one or more images included in the visually-presentedrelated media content comprises a moving of at least one camera awayfrom at least one subject depicted in at least one of the images. 54.The computer-implemented method of claim 52, wherein the tracking of theeye-scrolling movements of the user by the automatic tracking multimediacontrol includes a tracking of at least one vertical eye movement of theuser as the user implements the computer output device to view aplurality of rows of text in the primary body of text.
 55. Thecomputer-implemented method of claim 52, wherein at least one of the oneor more images included in the visually-presented related media contentis comprised of at least one photograph, at least one non-animatedcomputerized graphic, and/or at least one non-animated holographicimage.
 56. The computer-implemented method of claim 52, wherein at leastone of the one or more images included in the visually-presented relatedmedia content is comprised of at least one video, at least onecomputerized graphic, at least one animated computerized graphic, and/orat least one animated holographic image.
 57. The computer-implementedmethod of claim 52, with the current presentation further configured toinclude a display of a visual advertisement, and with the nextpresentation then further configured to include a modified display ofthe visual advertisement, the modified display of the visualadvertisement including a change in visual perspective in the visualadvertisement.
 58. The computer-implemented method of claim 52, whereinthe automatic multimedia tracking control is further configured todetect a rate of speed by the user to read at least part of theelectronically-presented text, the detected rate of speed thenconfigured to alter the modified display of at least one of the one ormore images included in the visually-presented related media content.59. The computer-implemented method of claim 52, wherein the change invisual perspective in the one or more images included in thevisually-presented related media content comprises at least onezoomed-in display of at least one depicted subject in at least one ofthe one or more images and/or at least one zoomed-out display of atleast one depicted subject in at least one of the one or more images.60. The computer-implemented method of claim 43, wherein the change inthe visual perspective is, at least in part, a change in visualperspective toward at least one photographed and/or videoed subjectdepicted in at least one of the one or more images.
 61. Acomputer-implemented method for synchronizing electronically-presentedtext with electronically-presented financial imagery, theelectronically-presented financial imagery configured, at least in part,to illustrate the electronically-presented text, theelectronically-presented text included in a primary body of text, theprimary body of text being a part of a news story, an informationalarticle, and/or an electronic book, the synchronization configured to beachieved, at least in part, through a scrolling-oriented multimediacontrol, the scrolling-oriented multimedia control enabling a user tochoose one or more scrolling positions, the computer-implemented methodcomprising: (a) displaying on a computer output device a currentpresentation, the current presentation retrieved from a non-transitorycomputer-useable storage medium and displayed as a result of at leastone operation executed by a computer processor, the current presentationincluding at least a part of the primary body of text, the currentpresentation further including a financial graphic, the financialgraphic including a financial chart; (b) detecting, through thescrolling-oriented multimedia control, an advancing by the user to apredetermined scrolling position for the primary body of text; (c)displaying, in response to the detecting, a next presentation on thecomputer output device, the next presentation retrieved from thenon-transitory computer-useable storage medium and displayed as a resultof at least one new operation executed by the computer processor, thenext presentation including a select text segment within the primarybody of text, the next presentation further including a modified displayof the financial chart, the modified display of the financial chartconfigured, at least in part, to illustrate the select text segment; (d)wherein the modified display of the financial chart automaticallycommences being displayed after the detecting of the advancing to thepredetermined scrolling position.
 62. The computer-implemented method ofclaim 61, further configuring the visual modification of the financialchart to include at least one of the following group consisting ofadding at least one trendline to the financial chart, removing at leastone trendline from the financial chart, and/or changing at least onetrendline in the financial chart.
 63. The computer-implemented method ofclaim 61, wherein the financial chart includes a price data display, theprice data display including a record of past price data, and with themodified display of the financial chart further configured to visuallypresent at least one future price prediction associated with the pricedata display.
 64. The computer-implemented method of claim 61, with thecurrent presentation further configured to include a display of a visualadvertisement, and with the next presentation then further configured toinclude a modified display of the visual advertisement.